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Mega eTextbooks release thread (part-28)! Find your textbooks here between $5-$25 :)

Please find the list below:
  1. Disease Gene Identification: Methods and Protocols, 2nd Edition: Johanna K. DiStefano
  2. Statistical Aspects of the Microbiological Examination of Foods, 3rd Edition: Basil Jarvis
  3. Revel for Social Problems, 14th Edition: Stanley Eitzen & Maxine Baca Zinn & Kelly Ei Smith
  4. Fundamentals of Human Resource Management: Pearson New International Edition, 3rd Edition: Gary Dessler
  5. Economics Today: The Micro View, 18th Edition: Roger LeRoy Miller
  6. Employment Law for Business, 8th Edition: Dawn Bennett-Alexander & Laura Hartman
  7. Surgical Exposures in Orthopaedics: The Anatomic Approach, 5th Edition: Stanley Hoppenfeld & Piet de Boer & Richard Buckley
  8. Project Management in Construction, 7th Edition: Sidney Levy
  9. Financial and Managerial Accounting, 7th Edition: John Wild & Ken Shaw & Barbara Chiappetta
  10. Handbook of Plant Disease Identification and Management, 1st Edition: Balaji Aglave
  11. Ubuntu Unleashed 2019 Edition: Covering 18.04, 18.10, 19.04, 13th Edition: Matthew Helmke
  12. Handbook of Insulin Therapies, 1st Edition: Winston Crasto & Janet Jarvis & Melanie J. Davies
  13. Python for Programmers: with Big Data and Artificial Intelligence Case Studies, 1st Edition: Paul J. Deitel & Harvey Deitel
  14. Medical Ethics: Accounts of Ground-Breaking Cases, 7th Edition: Gregory Pence
  15. Human Resource Management, 13th Edition: Gary Dessler
  16. The Biology and Therapeutic Application of Mesenchymal Cells, 2 Volume Set, 1st Edition: Kerry Atkinson
  17. Computer Security Fundamentals, 3rd Edition: William Chuck Easttom
  18. Hendee's Radiation Therapy Physics, 4th Edition: Todd Pawlicki & Daniel J. Scanderbeg & George Starkschall
  19. Nutrient Delivery, 1st Edition: Alexandru Grumezescu
  20. Technology Entrepreneurship: Taking Innovation to the Marketplace, 2nd Edition: Thomas N. Duening & Robert A. Hisrich & Michael A. Lechter
  21. Chemistry of Metalloproteins: Problems and Solutions in Bioinorganic Chemistry, 1st Edition: Joseph J. Stephanos & Anthony W. Addison
  22. Mathematical Statistics with Applications in R, 2nd Edition: Kandethody M. Ramachandran & Chris P. Tsokos
  23. Diagnostic Imaging: Genitourinary, 3rd Edition: Mitchell E. Tublin
  24. Comprehensive Management of Arteriovenous Malformations of the Brain and Spine, 1st Edition: Robert F. Spetzler & Douglas S. Kondziolka & Randall T. Higashida & M. Yashar S. Kalani
  25. Digital Design: With an Introduction to the Verilog HDL, 5th Edition: M. Morris R. Mano & Michael D. Ciletti
  26. Plasmids: Biology and Impact in Biotechnology and Discovery, 1st Edition: Marcelo E. Tolmasky & Juan C. Alonso
  27. Consumer Behavior: Buying, Having, and Being, Global Edition, 12th Edition: Michael R. Solomon
  28. Project Management Case Studies, 5th Edition: Harold Kerzner
  29. Medical Phisiology: Principles for Clinical Medicine, 4th Edition: Rodney A. Rhoades & David R. Bell
  30. Essentials of Contemporary Management, 7th Edition: Gareth Jones & Jennifer George
  31. Harmony and Voice Leading, 4th Edition: Thomas E. Benjamin & Michael Horvit & Robert S. Nelson
  32. Principles of Economics, 2nd Edition: Lee Coppock & Dirk Mateer
  33. Oral Microbiology and Immunology, 2nd Edition: Richard J. Lamont & George N. Hajishengallis & Howard F. Jenkinson
  34. Magnetic Resonance Imaging of the Brain and Spine, 5th Edition: Scott W. Atlas
  35. Accounting Information Systems: Controls and Processes, 3rd Edition: Leslie Turner & Andrea B. Weickgenannt & Mary Kay Copeland
  36. Strategic Corporate Social Responsibility: Sustainable Value Creation, 5th Edition: David Chandler
  37. Julien's Primer of Drug Action: A Comprehensive Guide to the Actions, Uses, and Side Effects of Psychoactive Drugs, 14th Edition: Claire D. Advokat & Joseph Comaty & Robert Julien
  38. The Grand Chessboard: American Primacy And Its Geostrategic Imperatives, 1st Edition: Zbigniew Brzezinski
  39. The Cosmic Perspective: The Solar System, 8th Edition: Jeffrey O. Bennett & Megan O. Donahue & Nicholas Schneider & Mark Voit
  40. Ultrastructure Atlas of Human Tissues, 1st Edition: Fred Hossler
  41. Advances in the Biology and Management of Modern Bed Bugs, 1st Edition: Stephen L. Doggett & Dini M. Miller & Chow-Yang Lee
  42. Patterns of World History: Volume One: To 1600, 1st Edition: Peter von Sivers & Charles A. Desnoyers & George B. Stow
  43. Genitourinary Imaging: A Core Review, 1st Edition: Matthew Davenport
  44. Evidence-based Obstetrics and Gynecology, 1st Edition: Errol R. Norwitz & Carolyn M. Zelop & David A. Miller & David L. Keefe
  45. Zoology, 10th Edition: Stephen Miller & John Harley
  46. Radical and Reconstructive Gynecologic Cancer Surgery, 1st Edition: Robert Bristow & Dennis Chi
  47. Davis's Diseases & Disorders A Nursing Therapeutics Manual, 6th Edition: Marilyn Sawyer Sommers
  48. Management & Cost Accounting, 6th Edition: Alnoor Bhimani
  49. Elements of Modern Algebra, 8th Edition: Linda Gilbert
  50. Psychiatric & Mental Health Nursing, 4th Edition: Katie Evans & Debra Nizette & Anthony O'Brien
  51. Molecular Biology: Different Facets, 1st Edition: Anjali Priyadarshini & Prerna Pandey
  52. Elementary Number Theory, 7th Edition: David Burton
  53. Accounting Information Systems, 14th Edition: Marshall B. Romney & Paul J. Steinbart
  54. Microeconomics, Global Edition, 9th Edition: Robert Pindyck & Daniel Rubinfeld
  55. Psychiatric and Mental Health Nursing Demystified, 1st Edition: Jim Keogh
  56. Entrepreneurship, 10th Edition: Robert Hisrich & Michael Peters & Dean Shepherd
  57. Ganong's Review of Medical Physiology, 26th Edition: Kim E. Barrett & Susan M. Barman & Jason Yuan & Heddwen L. Brooks
  58. Textbook of Obstetrics and Gynaecology: A life course approach, 1st Edition: Eric A.P. Steegers & Bart C.J.M. Fauser & Carina G.J.M. Hilders
  59. Engineering Mechanics: Statics, 8th Edition: James L. Meriam & L. G. Kraige & J. N. Bolton
  60. Basic Concepts of Psychiatric-Mental Health Nursing, 8th Edition: Louise Rebraca Shives
  61. Beckmann and Ling's Obstetrics and Gynecology, 8th Edition: Robert Casanova
  62. Biology: Concepts and Applications, 10th Edition: Cecie Starr & Christine Evers & Lisa Starr
  63. Estimating in Building Construction, 9th Edition: Steven J. Peterson & Frank R. Dagostino
  64. The Big Back Book: Tips & Tricks for Therapists, 1st Edition: Jane Johnson
  65. University Physics with Modern Physics, 14th Edition: Hugh D. Young & Roger A. Freedman
  66. Poisoning and Drug Overdose, 7th Edition: Kent Olson & Ilene Anderson & Neal Benowitz & Paul Blanc
  67. Koneman's Color Atlas and Textbook of Diagnostic Microbiology, 7th Edition: Gary W. Procop
  68. Experimental Psychology, 7th Edition: Anne Myers & Christine H. Hansen
  69. Marketing: An Introduction, 13th Edition: Gary Armstrong & Philip Kotler
  70. Gray's Anatomy for Students: With Student Consult, 3rd Edition: Richard Drake & A. Wayne Vogl & Adam W. M. Mitchell
  71. Chestnut's Obstetric Anesthesia: Principles and Practice, 5th Edition: David H. Chestnut & Cynthia A Wong & Lawrence C Tsen & Warwick D Ngan Kee & Yaakov Beilin & Jill Mhyre
  72. Chemistry: The Molecular Science, 5th Edition: John W. Moore & Conrad L. Stanitski
  73. Head, Neck and Dental Emergencies, 2nd Edition: Mike Perry
  74. Wong's Nursing Care of Infants and Children, 10th Edition: Marilyn J. Hockenberry & David Wilson
  75. Sports Emergency Care: A Team Approach, 3rd Edition: Robb Rehberg & Jeff G. Konin
  76. New Venture Creation: Entrepreneurship for the 21st Century, 10th Edition: Stephen Spinelli & Rob Adams
  77. Caring for the Vulnerable: Perspectives in Nursing Theory, Practice, and Research, 5th Edition: Mary de Chesnay & Barbara Anderson
  78. Geometry: The Line and the Circle: Maureen T. Carroll & Elyn Rykken
  79. Histories of Human Engineering: Tact and Technology: Maarten Derksen
  80. Land Restoration: Reclaiming Landscapes for a Sustainable Future, 1st Edition: Ilan Chabay & Martin Frick & Jennifer Helgeson
  81. Yamada's Handbook of Gastroenterology, 3rd Edition: Tadataka Yamada & John M. Inadomi & Renuka Bhattacharya & Jason A. Dominitz & Joo Ha Hwang
  82. Theoretical Physics 9: Fundamentals of Many-body Physics, 2nd Edition: Wolfgang Nolting & William D. Brewer
  83. Introduction to Programming with C++, 3rd Edition: Y. Daniel Liang
  84. Dental Emergencies, 1st Edition: Mark Greenwood & Ian Corbett
  85. Fundamentals of Physics and Chemistry of the Atmosphere, 2nd Edition: Guido Visconti
  86. Calculus: Early Transcendentals, 3rd Edition: William L. Briggs & Lyle Cochran & Bernard Gillett & Eric Schulz
  87. Educating Physical Therapists, 1st Edition: Gail Jensen
  88. Strategic Developments in Eurasia After 11 September, 1st Edition: Shireen Hunter
  89. Contemporary Issues in Healthcare Law and Ethics, 4th Edition: Dean Harris
  90. Transitioning from RN to MSN: Principles of Professional Role Development: Brenda Scott & Mindy Thompson
  91. Principles and Practice of Public Health Surveillance, 3rd Edition: Lisa M. Lee & Steven M. Teutsch & Stephen B. Thacker & Michael E. St. Louis
  92. Elementary Statistics: Picturing the World, 6th Edition: Ron Larson & Betsy Farber
  93. Human Sexuality in a World of Diversity, 6th Canadian Edition: Spencer A. Rathus & Jeffrey S. Nevid & Lois Fichner-Rathus & Alex McKay & Robin Milhausen
  94. Becoming Your Own Banker, 6th Edition: R. Nelson Nash
  95. Murach's MySQL, 3rd Edition: Joel Murach
  96. Intermediate Algebra, 13th Edition: Marvin L. Bittinger & Judith A. Beecher & Barbara L. Johnson
  97. Planning Health Promotion Programs: An Intervention Mapping Approach, 4th Edition: L. Kay Bartholomew Eldredge & Christine M. Markham & Robert A. C. Ruiter & Maria E. Fernández & Gerjo Kok & Guy S. Parcel
  98. Human Factors in Simple and Complex Systems, 3rd Edition: Robert W. Proctor & Trisha Van Zandt
  99. The Irony of Democracy: An Uncommon Introduction to American Politics, 17th Edition: Louis Schubert & Thomas R. Dye & Harmon Zeigler
  100. Understanding Earth, 7th Edition: John Grotzinger
  101. Nursing Research in Canada: Methods, Critical Appraisal, and Utilization, 4th Edition: Geri LoBiondo-Wood & Judith Haber & Cherylyn Cameron & Mina Singh
  102. The Philosophy of Film, 1st Edition: Thomas E. Wartenberg & Angela Curran
  103. Disaster Nursing and Emergency Preparedness, 4th Edition: Tener Goodwin Veenema
  104. Language in Mind: An Introduction to Psycholinguistics, 2nd Edition: Julie Sedivy
  105. Medical Anthropology: A Biocultural Approach, 3rd Edition: Andrea S. Wiley & John S. Allen
  106. Exploring Biology in the Laboratory, 3rd Edition: Murray P. Pendarvis & John L. Crawley
  107. Guide to Networking Essentials, 8th Edition: Greg Tomsho
  108. Social Psychology: A Storytelling Approach, 2nd Edition: Leonard Newman & Ralph Erber
  109. Managing Conflict: An Introspective Journey to Negotiating Skills, 1st Edition: Dorothy Balancio
  110. Environmental Change and Challenge: A Canadian Perspective, 5th Edition: Philip Dearden & Bruce Mitchell
  111. Brain and Behavior: A Cognitive Neuroscience Perspective, 1st Edition: David Eagleman & Jonathan Downar
  112. Cardiac/Vascular Nurse Exam Secrets Study Guide: Cardiac/Vascular Nurse Test Review for the Cardiac/Vascular Nurse Exam: Mometrix Media & Cardiac Vascular Nurse Exam Secrets
  113. Keeping the Republic: Power and Citizenship in American Politics, The Essentials, 9th Edition: Christine Barbour & Gerald Wright
  114. Principles of Environmental Science, 9th Edition: William Cunningham & Mary Cunningham
  115. Thomas' Calculus, 14th Edition: Joel R. Hass & Christopher E. Heil & Maurice D. Weir
  116. Pharmacology for Canadian Pharmacy Technicians, 1st Edition: Leland Norman Holland & Michael P. Adams & Jeanine Lynn Brice & Heather V. LeBlanc
  117. Cellular and Molecular Immunology, 9th Edition: Abul K. Abbas & Andrew H. Lichtman & Shiv Pillai
  118. Operations Management: Processes and Supply Chains, 11th Edition: Lee J. Krajewski & Manoj K. Malhotra & Larry P. Ritzman
  119. Jews, Christians, Muslims: A Comparative Introduction to Monotheistic Religions, 2nd Edition: John Corrigan & Frederick Denny & Martin S Jaffee & Carlos Eire
  120. Professional Nursing: Concepts & Challenges, 9th Edition: Beth Black
  121. Practical Homicide Investigation: Tactics, Procedures, and Forensic Techniques, 4th Edition: Vernon J. Geberth
  122. Fundamentals of Modern Manufacturing: Materials, Processes and Systems, 7th Edition: Mikell P. Groover
  123. Genetics: A Conceptual Approach, 7th Edition: Benjamin A. Pierce
  124. Computer Science Illuminated, 7th Edition: Nell Dale & John Lewis
  125. The Globalization of World Politics: An Introduction to International Relations, 8th Edition: John Baylis & Steve Smith & Patricia Owens
  126. Behavioral Neuroscience, 9th Edition: S. Marc Breedlove & Neil V. Watson
  127. Canadian Human Resource Management: A Strategic Approach, 12th Edition: Hermann Schwind & Krista Uggerslev & Terry Wagar & Neil Fassina
  128. Brief Principles of Macroeconomics, 9th Edition: N. Gregory Mankiw
  129. Living in the Environment, 4th Canadian Edition: G. Miller & Dave Hackett & Carl Wolfe
  130. Principles of Economics, 9th Edition: N. Gregory Mankiw
  131. Principles of Microeconomics, 9th Edition: N. Gregory Mankiw
  132. Child Development, 9th Edition: Laura E. Berk
  133. Home, School, and Community Collaboration: Culturally Responsive Family Engagement, 4th Edition: Kathy Beth Grant & Julie A. Ray
  134. Set Lighting Technician's Handbook, 4th Edition: Harry Box
  135. Clinical Nurse Leader Certification Review, 2nd Edition: Cynthia R. King
  136. Basic Chemistry, 4th Edition: Karen C. Timberlake & William Timberlake
  137. Sparks & Taylor's Nursing Diagnosis Pocket Guide, 3rd Edition: Linda Phelps
  138. Family Theories: Foundations and Applications, 1st Edition: Katherine R. Allen & Angela C. Henderson
  139. The Earth and Its Peoples: A Global History, 7th Edition: Richard Bulliet & Pamela Crossley & Daniel Headrick & Steven Hirsch & Lyman Johnson
  140. Sociology in Action: A Canadian Perspective, 3rd Edition: Tami Bereska & Diane Symbaluk
  141. Operations Management: Processes and Supply Chains, 12th Edition: Lee J. Krajewski & Manoj K. Malhotra & Larry P. Ritzman
  142. Introduction to Food Science and Food Systems, 2nd Edition: Rick Parker & Miriah Pace
  143. Liaisons, Student Edition: An Introduction to French, 3rd Edition: Wynne Wong & Stacey Weber-Fève & Bill VanPatten
  144. Zuckerman Parker Handbook of Developmental and Behavioral Pediatrics for Primary Care, 4th Edition: Marilyn Augustyn & Barry Zuckerman
  145. Teaching in Today's Inclusive Classrooms: A Universal Design for Learning Approach, 3rd Edition: Richard M. Gargiulo & Debbie Metcalf
  146. The Biological Basis of Mental Health, 3rd Edition: William T. Blows
  147. Developing and Managing Electronic Collections: The Essentials: Peggy Johnson
  148. Western Civilization: Volume II: Since 1500, 10th Edition: Jackson J. Spielvogel
  149. Talking to Strangers: What We Should Know about the People We Don't Know, 1st Edition: Malcolm Gladwell
  150. Understanding Pathophysiology, 7th Edition: Sue E. Huether & Kathryn L. McCance
  151. Our Environment: A Canadian Perspective, 5th edition: Dianne Draper & Ann Zimmerman
  152. Criminal Law: Cases and Materials, 8th Edition: John Kaplan & Robert Weisberg & Guyora Binder
  153. A Photographic Atlas of Histology, 2nd Edition: Michael J Leboffe
  154. Dragons and Tigers: A Geography of South, East, and Southeast Asia, 3rd Edition: Barbara A. Weightman
  155. Climate Change Biology, 1st Edition: Jonathan A. Newman & Madhur Anand & Hugh A. L. Henry & Shelley L. Hunt & Ze'ev Gedalof
  156. The Power of Critical Thinking: 5th Canadian Edition: Chris MacDonald and Lewis Vaughn
  157. Principles of Fire Behavior and Combustion, 4th Edition: Richard Gann & Raymond Friedman
  158. Informatics Nurse Exam Secrets Study Guide: Informatics Test Review for the Informatics Nurse Certification Exam: Informatics Exam Secrets Test Prep Team
  159. General Chemistry, 10th Edition: Darrell Ebbing & Steven D. Gammon
  160. A Practical Guide to Computer Forensics Investigations, 1st Edition: Darren R. Hayes
  161. Basic Biomechanics, 8th Edition: Susan Hall
  162. Essay Writing for Canadian Students, 8th Edition: Roger Davis & Laura K. Davis
  163. Biology, 11th Edition: Peter Raven & George Johnson & Kenneth Mason & Jonathan Losos & Susan Singer
  164. Molecular Imaging, 1st Edition: Ralph Weissleder& Brian D. Ross & Alnawaz Rehemtulla & Sanjiv Sam Gambhir
  165. Criminology, 4th Edition: Frank Schmalleger
  166. A Theory of Truthmaking: Metaphysics, Ontology, and Reality: Jamin Asay
  167. The Routledge Handbook of Metaphysical Grounding, 1st Edition: Michael J. Raven
  168. Linear Algebra and Its Applications, 5th Edition: David C. Lay & Steven R. Lay & Judi J. McDonald
  169. Essentials of Human Communication, 9th Edition: Joseph A. DeVito
  170. Economics: Principles, Applications, and Tools, 9th Edition, Global Edition: Arthur O'Sullivan & Steven Sheffrin & Stephen Perez
  171. Global Health 101, 3rd Edition: Richard Skolnik
  172. Mathematical Proofs: A Transition to Advanced Mathematics, 4th Edition: Gary Chartrand & Albert D. Polimeni & Ping Zhang
  173. Concepts in Strategic Management and Business Policy: Globalization, Innovation and Sustainability, 15th Edition, Global Edition: Thomas L. Wheelen & J. David Hunger & Alan N. Hoffman & Charles E. Bamford
  174. Chemistry: The Central Science, 14th Edition, Global Edition: Theodore E. Brown & H. Eugene LeMay & Bruce E. Bursten & Catherine Murphy & Patrick Woodward & Matthew E. Stoltzfus
  175. Biopsychology, 10th Edition, Global Edition: John P. J. Pinel & Steven Barnes
  176. Electric Circuits, 11th Edition: James W. Nilsson & Susan Riedel
  177. Keeping the Republic; Power and Citizenship in American Politics, the Essentials, 8th Edition: Christine Barbour & Gerald C Wright
  178. Applied Behavior Analysis: Pearson New International Edition, 2nd Edition: John O. Cooper & Timothy E. Heron & William L. Heward
  179. Cryptography and Network Security: Principles and Practice, 7th Edition, Global Edition: William Stallings
  180. Operating Systems: Internals and Design Principles, 9th Edition, Global Edition: William Stallings
  181. Options, Futures, and Other Derivatives, 9th Edition, Global Edition: John C. Hull
  182. Invitation to the Psychology of Religion, 3rd Edition: Raymond F. Paloutzian
  183. Valuation: The Art and Science of Corporate Investment Decisions, 3rd Edition: Sheridan Titman
  184. Comprehensive Clinical Nephrology, 5th Edition: Richard J. Johnson & John Feehally & Jurgen Floege
  185. Miller & Freund's Probability and Statistics for Engineers, 9th Edition, Global Edition: Richard Johnson & Irwin Miller & John Freund
  186. Exploring Strategy: Text and Cases, 11th Edition: Gerry Johnson & Richard Whittington & Patrick Regnér & Kevan Scholes & Duncan Angwin
  187. Economics for Business, 7th Edition: John Sloman
  188. Essentials of Economics, 7th Edition: John Sloman & Dean Garratt
  189. Economics, 9th Edition: John Sloman & Dean Garratt & Alison Wride
  190. Essential Economics for Business, 5th Edition: Johnsloman & Jones Elizabeth
  191. Finite Mathematics, 7th Edition: Stefan Waner & Steven Costenoble
  192. The SAGE Encyclopedia of Surveillance, Security, and Privacy, 1st Edition: Bruce A. Arrigo
  193. Evolution, 4th Edition: Douglas J. Futuyma & Mark Kirkpatrick
  194. Adult Development and Aging, 7th Edition: John C. Cavanaugh & Fredda Blanchard-Fields
  195. Foundations of Finance, 9th Edition, Global Edition: Arthur J. Keown & John D Martin & J. William Petty
  196. Learning PHP, MySQL & JavaScript: With jQuery, CSS & HTML5, 4th Edition: Robin Nixon
  197. Head First Learn to Code: A Learner's Guide to Coding and Computational Thinking, 1st Edition: Eric Freeman
  198. Learning Swift: Building Apps for macOS, iOS, and Beyond, 3rd Edition: Jonathon Manning & Paris Buttfield-Addison & Tim Nugent
  199. Database Systems: Design, Implementation, & Management, 12th Edition: Carlos Coronel & Steven Morris
  200. Introduction to Solid Modeling Using SolidWorks, 13th Edition: William Howard & Joseph Musto
  201. Communications Receivers: Principles and Design, 4th Edition: Ulrich Rohde & Jerry Whitaker & Hans Zahnd
  202. Connect Core Concepts in Health, 15th Edition: Paul Insel & Walton Roth
  203. On Course: Strategies for Creating Success in College and in Life, 8th Edition: Skip Downing
  204. Vander's Human Physiology, 15th Edition: Eric Widmaier & Hershel Raff & Kevin Strang
  205. Biology, 4th Edition: Robert Brooker & Eric Widmaier & Linda Graham & Peter Stiling
  206. The Essentials of Statistics: A Tool for Social Research, 4th Edition: Joseph F. Healey
  207. Oracle 12c: SQL, 3rd Edition: Joan Casteel
  208. Global Business Today, 10th Edition: Charles Hill & G. Tomas M. Hult
  209. Project Management: The Managerial Process, 7th Edition: Erik Larson & Clifford Gray
  210. Organizational Behavior: A Practical, Problem-Solving Approach, 2nd Edition: Angelo Kinicki & Mel Fugate
  211. International Management: Culture, Strategy, and Behavior, 10th Edition: Fred Luthans & Jonathan Doh
  212. CorelDRAW X8: The Official Guide, 12th Edition: Gary David Bouton
  213. Physics for Scientists and Engineers: An Interactive Approach, 2nd Edition: Robert Hawkes & Javed Iqbal & Firas Mansour & Marina Milner-Bolotin & Peter Williams
  214. Programmable Logic Controllers, 5th Edition: Frank Petruzella
  215. Foundations in Microbiology, 10th Edition: Kathleen Park Talaro & Barry Chess
  216. Applied Numerical Methods with MATLAB for Engineers and Scientists, 4th Edition: Steven Chapra
  217. Tonal Harmony, 8th Edition: Stefan Kostka & Dorothy Payne & Byron Almén
  218. Discrete Mathematics, 8th Edition: Richard Johnsonbaugh
  219. Bates' Pocket Guide to Physical Examination and History Taking, 8th Edition: Lynn S. Bickley
  220. NANDA International Nursing Diagnoses: Definitions & Classification 2018-2020, 11th Edition: T. Heather Herdman & Shigemi Kamitsuru & Heather T. Herdman
  221. Biology: Concepts and Investigations, 4th Edition: Mariëlle Hoefnagels
  222. Biology: Concepts and Investigations, 3rd Edition: Mariëlle Hoefnagels
  223. Human Biology: Concepts and Current Issues, 8th Edition, Global Edition: Michael D. Johnson
  224. Messages: Building Interpersonal Communication Skills, 5th Canadian Edition: Joseph A. DeVito & Rena Shimoni & Dawne Clark
  225. The Interpersonal Communication Book, 14th Edition, Global Edition: Joseph A. DeVito
  226. Computational Systems Pharmacology and Toxicology, 1st Edition: Rudy J Richardson & Dale E Johnson & Noffisat Oki & David Faulkner
  227. Shelly Cashman Series Microsoft Office 365 & Office 2019 Introductory, 1st Edition: Sandra Cable & Steven M. Freund & Ellen Monk & Susan L. Sebok & Joy L. Starks
  228. The Practice of Emotionally Focused Couple Therapy: Creating Connection, 2nd Edition: Susan M. Johnson
  229. The Marriage Clinic: A Scientifically Based Marital Therapy, 1st Edition: John M. Gottman
  230. Cognitive-Behavioral Therapy with Couples and Families: A Comprehensive Guide for Clinicians, 1st Edition: Frank M. Dattilio & Aaron T. Beck
  231. International Marketing, 17th Edition: Philip R. Cateora & John Graham & Mary C Gilly
  232. Kaplan and Sadock's Concise Textbook of Clinical Psychiatry, 3rd Edition: Benjamin Sadock & Virginia Alcott Sadock
  233. Anthropology, 14th Edition: Carol R. Ember & Melvin Ember & Peter N. Peregrine
  234. The Men They Will Become: The Nature And Nurture Of Male Character: Eli Newberger
  235. Accounting, 27th Edition: Carl S. Warren & James M. Reeve & Jonathan Duchac
  236. ICD-10-CM 2019: The Complete Official Codebook, 1st Edition: American Medical Association
  237. Essentials of Human Anatomy & Physiology, 12th Edition, Global Edition: Elaine N. Marieb & Suzanne M. Keller
  238. Early Childhood Education Today, 14th Edition: George S Morrison
  239. Programming Bitcoin: Learn How to Program Bitcoin from Scratch, 1st Edition: Jimmy Song
  240. The Physiology and Biochemistry of Prokaryotes, 4th Edition: David White & James Drummond & Clay Fuqua
  241. Environmental Microbiology, 3rd Edition: Ian L. Pepper & Charles P. Gerba & Terry J. Gentry
  242. Industrial Microbiology: An Introduction, 1st Edition: Michael J. Waites & Neil L. Morgan & John S. Rockey & Gary Higton
  243. Introduction to Econometrics, Updated 3rd Edition, Global Edition: James H. Stock & Mark W. Watson
  244. Introduction to Econometrics, 3rd Edition: James H. Stock & Mark W. Watson
  245. Expert Oracle Application Express, 2nd Edition: Doug Gault & Dimitri Gielis & Martin DSouza & Roel Hartman
  246. The Art of Reasoning: An Introduction to Logic and Critical Thinking, 4th Edition: David Kelley
  247. Physics, 5th Edition: James S. Walker
  248. Applied Fluid Mechanics, 7th Edition: Robert L. Mott & Joseph A. Untener
  249. Applied Strength of Materials, SI Units Version, 6th Edition: Robert L. Mott & Joseph A. Untener
  250. Social Psychology, 12th Edition: David Myers & Jean Twenge
  251. Applied Strength of Materials, 6th Edition: Robert Mott & Joseph A. Untener
  252. Foundations of Nursing Research, 7th Edition: Rose Marie Nieswiadomy & Catherine Bailey
  253. Molecular Cell Biology, 8th Edition: Harvey Lodish & Arnold Berk & Chris A. Kaiser & Monty Krieger & Anthony Bretscher
  254. Machine Elements in Mechanical Design, 6th Edition: Robert L. Mott & Edward M. Vavrek & Jyhwen Wang
  255. DeVita, Hellman, and Rosenberg's Cancer, 11th Edition: Vincent T. DeVita & Steven A. Rosenberg & Theodore S. Lawrence
  256. Particle Image Velocimetry: A Practical Guide, 3rd Edition: Markus Raffel & Christian E. Willert & Fulvio Scarano & Christian J. Kähler
  257. Smith's Textbook of Endourology, 4th Edition: Arthur D. Smith & Glenn Preminger & Gopal H. Badlani & Louis R. Kavoussi
  258. College Algebra with Modeling & Visualization, 6th Edition: Gary K. Rockswold
  259. Financial Accounting Theory, 7th Edition: William R. Scott
  260. Biology Now, 2nd Edition: Anne Houtman & Megan Scudellari & Cindy Malone
  261. Psychological Science, 5th Edition: Michael Gazzaniga & Diane Halpern
  262. The Handbook of Technical Writing, 11th Edition: Gerald J. Alred & Charles T. Brusaw & Walter E. Oliu
  263. A Graphical Approach to College Algebra, 6th Edition: John Hornsby & Margaret L. Lial & Gary K. Rockswold
  264. Business Analytics, 4th Edition: Jeffrey D. Camm & James J. Cochran & Michael J. Fry & Jeffrey W. Ohlmann
  265. Biological Psychology, 13th Edition: James W. Kalat
  266. Business Communication Today, 14th Edition: Courtland L. Bovee & John V. Thill
  267. Geosystems Core, 1st Edition: Robert W. Christopherson & Stephen Cunha & Charles E. Thomsen & Ginger Birkeland
  268. Principles of Information Security, 6th Edition: Michael E. Whitman & Herbert J. Mattord
  269. Financial & Managerial Accounting, 14th Edition: Carl S. Warren & James M. Reeve & Jonathan Duchac
  270. Corporate Finance: Theory and Practice, 5th Edition: Pierre Vernimmen & Pascal Quiry & Maurizio Dallocchio & Yann Le Fur & Antonio Salvi
  271. Introductory Statistics, 10th Edition: Neil A. Weiss
  272. Introduction to Cryptography: Principles and Applications, 3rd Edition: Hans Delfs & Helmut Knebl
  273. Business Essentials, 8th Canadian Edition: Ronald J. Ebert & Ricky W. Griffin & Frederick A. Starke & George Dracopoulos
  274. Introduction to Mathematical Statistics, 8th Edition: Robert V. Hogg & Joseph W. McKean & Allen T. Craig
  275. The Routledge Companion to Business Ethics, 1st Edition: Eugene Heath & Byron Kaldis & Alexei Marcoux
  276. Geosystems An Introduction to Physical Geography, Global Edition, 9th Edition: Ginger H. Birkel & Robert W. Christopherson
  277. Scientific American Environmental Science for a Changing World, 2nd Edition: Jeneen InterlandI & Anne Houtman
  278. Precalculus, 10th Edition: Ron Larson
  279. The Human Brain Book: An Illustrated Guide to its Structure, Function, and Disorders, New Edition: Rita Carter
  280. Introduction to Materials Science for Engineers, 8th Edition: James F. Shackelford
  281. Adobe Dreamweaver CC Classroom in a Book, 1st Edition: Jim Maivald
  282. Trigonometry, 11th Edition: Margaret L. Lial & John Hornsby & David I. Schneider & Callie Daniels
  283. Investment Banks, Hedge Funds, and Private Equity, 3rd Edition: David P. Stowell
  284. Cognitive Neuroscience: The Biology of the Mind, 5th Edition: Michael Gazzaniga & Richard B. Ivry & George R. Mangun
  285. Cognitive Neuroscience: The Biology of the Mind, 5th Edition: Michael Gazzaniga & Richard B. Ivry (Author), George R. Mangun (Author)
  286. Project Management Theory and Practice, 3rd Edition: Gary L. Richardson & Brad M. Jackson
  287. Organic Chemistry: Structure and Function, 8th Edition: K. Peter C. Vollhardt & Neil E. Schore
  288. Read, Reason, Write: An Argument Text and Read, 11th Edition: Dorothy Seyler
  289. Fundamentals of Management: Management Myths Debunked!, Global Edition, 10th Edition: Stephen P Robbins & David A. De Cenzo & Mary Coulter
  290. Computer Networking: A Top-Down Approach, Global Edition, 7th Edition: James Kurose & Keith Ross
  291. An Introduction to Banking: Principles, Strategy and Risk Management, 2nd Edition: Moorad Choudhry
  292. The Immune System, 4th Edition: Peter Parham
  293. Biochemistry: Concepts and Connections, Global Edition, 1st Edition: Dean R. Appling & Spencer J. Anthony-Cahill & Christopher K. Mathews
  294. Writing about Writing, 3rd Edition: Elizabeth Wardle & Douglas Downs
  295. Data Wrangling with JavaScript, 1st Edition: Ashley Davis
  296. Experience Psychology, 4th Edition: Laura King
  297. An Introduction to Mathematical Statistics: Fetsje Bijma & Marianne Jonker & Aad van der Vaart & Reinie Erné
  298. Business Communication: Polishing Your Professional Presence, 3rd Edition: Barbara G. Shwom & Lisa Gueldenzoph Snyder
  299. Earth's Evolving Systems: The History of Planet Earth, 2nd Edition: Ronald E. Martin
  300. Business Ethics: Decision Making for Personal Integrity & Social Responsibility, 4th Edition: Laura Hartman & Joseph DesJardins & Chris MacDonald
  301. College Algebra and Trigonometry, Global Edition, 6th Edition: Margaret L. Lial & John Hornsby & David I. Schneider & Callie Daniels
  302. Essentials of MIS, 12th Edition: Kenneth C. Laudon & Jane P. Laudon
  303. Behavior Analysis and Learning: A Biobehavioral Approach, 6th Edition: W. David Pierce & Carl D. Cheney
  304. University Physics, 14th Edition: Hugh D. Young & Roger A. Freedman
  305. Earth System History, 4th Edition: Steven M. Stanley & John A. Luczaj
  306. Analytical Mechanics, 2nd Edition: Nivaldo A. Lemos
  307. Fundamentals of Management, 7th Canadian Edition: Stephen P. Robbins & David A. DeCenzo & Mary Coulter
  308. Computer Accounting with QuickBooks Online: A Cloud Based Approach, 2nd Edition: Carol Yacht & Susan Crosson
  309. Cost Accounting and Financial Management for Construction Project Managers, 1st Edition: Len Holm
  310. Business Continuity Management in Construction, 1st Edition: Leni Sagita Riantini Supriadi & Low Sui Pheng
  311. Contemporary Logistics, 12th Edition, Global Edition: Paul R. Murphy & A. Michael Knemeyer
  312. Mechanical Engineers' Handbook, Volume 1: Materials and Engineering Mechanics, 4th Edition: Myer Kutz
  313. Mechanical Engineers' Handbook, Volume 2: Design, Instrumentation, and Controls, 4th Edition: Myer Kutz
  314. Mechanical Engineers' Handbook, Volume 3: Manufacturing and Management, 4th Edition: Myer Kutz
  315. Mechanical Engineers' Handbook, Volume 4: Energy and Power, 4th Edition: Myer Kutz
  316. An Introduction to Mathematical Statistics and Its Applications, 6th Edition: Richard J. Larsen & Morris L. Marx
  317. Developmental Mathematics, 1st Edition: Robert F. Blitzer
  318. Thinking Mathematically, 7th Edition: Robert F. Blitzer
  319. Wardlaw's Contemporary Nutrition, 10th Edition: Anne Smith & Angela Collene
  320. Mathematical Statistics: An Introduction to Likelihood Based Inference, 1st Edition: Richard J. Rossi
  321. Asking the Right Questions, 11th Edition: M. Neil Browne & Stuart M. Keeley
  322. Asking the Right Questions, 11th Edition, Global Edition: M. Neil Browne & Stuart M. Keeley
  323. Crash Course Cardiology, 4th Edition: Antonia Churchhouse & Julian O. M. Ormerod & Michael Frenneaux
  324. A Graphical Approach to Precalculus with Limits, 7th Edition: John Hornsby & Margaret L. Lial & Gary K. Rockswold
  325. Unlocking Equity and Trusts, 5th Edition: Mohamed Ramjohn
  326. Public Speaking: The Evolving Art, 4th Edition: Stephanie J. Coopman & James Lull
  327. Social Psychology, 8th Edition: Michael Hogg & Graham Vaughan
  328. Human Resources Management in Canada, 12th Canadian Edition: Gary Dessler & Nita Chhinzer & Nina Cole
  329. Law Core Textbook Bundle: Equity and Trusts, 8th edition: Alastair Hudson
  330. Living Ethics: An Introduction with Readings: Russ Shafer-Landau
  331. Microsoft Project 2019 Step by Step, 1st Edition: Cindy Lewis & Carl Chatfield & Timothy Johnson
  332. Global Business Ethics: Responsible Decision Making in an International Context, 1st Edition: Ronald D Francis & Guy Murfey
  333. Construction Management: Theory and Practice, 1st Edition: Chris March
  334. Harrison's Endocrinology, 4th Edition: J. Larry Jameson
  335. Harrison's Neurology in Clinical Medicine, 4th Edition: Stephen Hauser & S. Andrew Josephson
  336. English Grammar Workbook For Dummies with Online Practice, 3rd Edition: Geraldine Woods
  337. Naked: The Dark Side of Shame and Moral Life, 1st Edition: Krista K. Thomason
  338. Ashcraft's Pediatric Surgery, 6th Edition: George W. Holcomb III & J. Patrick Murphy & Daniel J Ostlie
  339. Mobile Apps Engineering: Design, Development, Security, and Testing, 1st Edition: Ghita K. Mostefaoui & Faisal Tariq
  340. Lange Clinical Neurology, 10th Edition: Roger Simon & David Greenberg & Michael Aminoff
  341. International Textbook of Diabetes Mellitus, 2 Volume Set, 4th Edition: R. A. DeFronzo & E. Ferrannini & Paul Zimmet & George Alberti
  342. Java Programming, 9th Edition: Joyce Farrell
  343. Discovering Behavioral Neuroscience: An Introduction to Biological Psychology, 4th Edition: Laura Freberg
  344. How the Immune System Works, 5th Edition: Lauren M. Sompayrac
  345. Fundamentals of Electroceramics: Materials, Devices, and Applications, 1st Edition: R. K. Pandey
  346. Essentials of Hospital Neurology, 1st Edition: Karl E. Misulis & E. Lee Murray
  347. Biology of Humans: Concepts, Applications, and Issues, 6th Edition: Judith Goodenough & Betty A. McGuire
  348. Williams Textbook of Endocrinology, 13th Edition: Shlomo Melmed & Kenneth S. Polonsky & P. Reed Larsen & Henry M. Kronenberg
  349. Financial Management: Principles and Applications, Global Edition, 13th Edition: Sheridan Titman & Arthur J. Keown & John D Martin
  350. Case Studies in Immunology: A Clinical Companion, 7th Edition: Raif S. Geha & Luigi Notarangelo
  351. Handbook of MRI Technique, 4th Edition: Catherine Westbrook
  352. MRI: Basic Principles and Applications, 5th Edition: Brian M. Dale & Mark A. Brown & Richard C. Semelka
  353. Robbins Basic Pathology, 10th Edition: Vinay Kumar & Abul K. Abbas & Jon C. Aster & Vinay Kumar & Abul K. Abbas & Jon C. Aster
  354. Rosen's Emergency Medicine: Concepts and Clinical Practice: 2-Volume Set, 9th Edition: Ron Walls & Robert Hockberger & Marianne Gausche-Hill
  355. BNF for Children: 2018-2019, 1st Edition: Paediatric Formulary Committee
  356. Sitaraman and Friedman's Essentials of Gastroenterology, 2nd Edition: Shanthi Srinivasan & Lawrence S. Friedman
  357. Practical Gastroenterology and Hepatology Board Review Toolkit, 2nd Edition: Kenneth R. DeVault & Michael B. Wallace & Bashar A. Aqel & Keith D. Lindor
  358. Reinforcement Learning: An Introduction, 2nd edition: Richard S. Sutton & Andrew G. Barto
submitted by bookseller10 to Textbook_releases [link] [comments]

Mega eTextbooks release thread (part-28)! Find your textbooks here between $5-$25 :)

Please find the list below:
  1. Disease Gene Identification: Methods and Protocols, 2nd Edition: Johanna K. DiStefano
  2. Statistical Aspects of the Microbiological Examination of Foods, 3rd Edition: Basil Jarvis
  3. Revel for Social Problems, 14th Edition: Stanley Eitzen & Maxine Baca Zinn & Kelly Ei Smith
  4. Fundamentals of Human Resource Management: Pearson New International Edition, 3rd Edition: Gary Dessler
  5. Economics Today: The Micro View, 18th Edition: Roger LeRoy Miller
  6. Employment Law for Business, 8th Edition: Dawn Bennett-Alexander & Laura Hartman
  7. Surgical Exposures in Orthopaedics: The Anatomic Approach, 5th Edition: Stanley Hoppenfeld & Piet de Boer & Richard Buckley
  8. Project Management in Construction, 7th Edition: Sidney Levy
  9. Financial and Managerial Accounting, 7th Edition: John Wild & Ken Shaw & Barbara Chiappetta
  10. Handbook of Plant Disease Identification and Management, 1st Edition: Balaji Aglave
  11. Ubuntu Unleashed 2019 Edition: Covering 18.04, 18.10, 19.04, 13th Edition: Matthew Helmke
  12. Handbook of Insulin Therapies, 1st Edition: Winston Crasto & Janet Jarvis & Melanie J. Davies
  13. Python for Programmers: with Big Data and Artificial Intelligence Case Studies, 1st Edition: Paul J. Deitel & Harvey Deitel
  14. Medical Ethics: Accounts of Ground-Breaking Cases, 7th Edition: Gregory Pence
  15. Human Resource Management, 13th Edition: Gary Dessler
  16. The Biology and Therapeutic Application of Mesenchymal Cells, 2 Volume Set, 1st Edition: Kerry Atkinson
  17. Computer Security Fundamentals, 3rd Edition: William Chuck Easttom
  18. Hendee's Radiation Therapy Physics, 4th Edition: Todd Pawlicki & Daniel J. Scanderbeg & George Starkschall
  19. Nutrient Delivery, 1st Edition: Alexandru Grumezescu
  20. Technology Entrepreneurship: Taking Innovation to the Marketplace, 2nd Edition: Thomas N. Duening & Robert A. Hisrich & Michael A. Lechter
  21. Chemistry of Metalloproteins: Problems and Solutions in Bioinorganic Chemistry, 1st Edition: Joseph J. Stephanos & Anthony W. Addison
  22. Mathematical Statistics with Applications in R, 2nd Edition: Kandethody M. Ramachandran & Chris P. Tsokos
  23. Diagnostic Imaging: Genitourinary, 3rd Edition: Mitchell E. Tublin
  24. Comprehensive Management of Arteriovenous Malformations of the Brain and Spine, 1st Edition: Robert F. Spetzler & Douglas S. Kondziolka & Randall T. Higashida & M. Yashar S. Kalani
  25. Digital Design: With an Introduction to the Verilog HDL, 5th Edition: M. Morris R. Mano & Michael D. Ciletti
  26. Plasmids: Biology and Impact in Biotechnology and Discovery, 1st Edition: Marcelo E. Tolmasky & Juan C. Alonso
  27. Consumer Behavior: Buying, Having, and Being, Global Edition, 12th Edition: Michael R. Solomon
  28. Project Management Case Studies, 5th Edition: Harold Kerzner
  29. Medical Phisiology: Principles for Clinical Medicine, 4th Edition: Rodney A. Rhoades & David R. Bell
  30. Essentials of Contemporary Management, 7th Edition: Gareth Jones & Jennifer George
  31. Harmony and Voice Leading, 4th Edition: Thomas E. Benjamin & Michael Horvit & Robert S. Nelson
  32. Principles of Economics, 2nd Edition: Lee Coppock & Dirk Mateer
  33. Oral Microbiology and Immunology, 2nd Edition: Richard J. Lamont & George N. Hajishengallis & Howard F. Jenkinson
  34. Magnetic Resonance Imaging of the Brain and Spine, 5th Edition: Scott W. Atlas
  35. Accounting Information Systems: Controls and Processes, 3rd Edition: Leslie Turner & Andrea B. Weickgenannt & Mary Kay Copeland
  36. Strategic Corporate Social Responsibility: Sustainable Value Creation, 5th Edition: David Chandler
  37. Julien's Primer of Drug Action: A Comprehensive Guide to the Actions, Uses, and Side Effects of Psychoactive Drugs, 14th Edition: Claire D. Advokat & Joseph Comaty & Robert Julien
  38. The Grand Chessboard: American Primacy And Its Geostrategic Imperatives, 1st Edition: Zbigniew Brzezinski
  39. The Cosmic Perspective: The Solar System, 8th Edition: Jeffrey O. Bennett & Megan O. Donahue & Nicholas Schneider & Mark Voit
  40. Ultrastructure Atlas of Human Tissues, 1st Edition: Fred Hossler
  41. Advances in the Biology and Management of Modern Bed Bugs, 1st Edition: Stephen L. Doggett & Dini M. Miller & Chow-Yang Lee
  42. Patterns of World History: Volume One: To 1600, 1st Edition: Peter von Sivers & Charles A. Desnoyers & George B. Stow
  43. Genitourinary Imaging: A Core Review, 1st Edition: Matthew Davenport
  44. Evidence-based Obstetrics and Gynecology, 1st Edition: Errol R. Norwitz & Carolyn M. Zelop & David A. Miller & David L. Keefe
  45. Zoology, 10th Edition: Stephen Miller & John Harley
  46. Radical and Reconstructive Gynecologic Cancer Surgery, 1st Edition: Robert Bristow & Dennis Chi
  47. Davis's Diseases & Disorders A Nursing Therapeutics Manual, 6th Edition: Marilyn Sawyer Sommers
  48. Management & Cost Accounting, 6th Edition: Alnoor Bhimani
  49. Elements of Modern Algebra, 8th Edition: Linda Gilbert
  50. Psychiatric & Mental Health Nursing, 4th Edition: Katie Evans & Debra Nizette & Anthony O'Brien
  51. Molecular Biology: Different Facets, 1st Edition: Anjali Priyadarshini & Prerna Pandey
  52. Elementary Number Theory, 7th Edition: David Burton
  53. Accounting Information Systems, 14th Edition: Marshall B. Romney & Paul J. Steinbart
  54. Microeconomics, Global Edition, 9th Edition: Robert Pindyck & Daniel Rubinfeld
  55. Psychiatric and Mental Health Nursing Demystified, 1st Edition: Jim Keogh
  56. Entrepreneurship, 10th Edition: Robert Hisrich & Michael Peters & Dean Shepherd
  57. Ganong's Review of Medical Physiology, 26th Edition: Kim E. Barrett & Susan M. Barman & Jason Yuan & Heddwen L. Brooks
  58. Textbook of Obstetrics and Gynaecology: A life course approach, 1st Edition: Eric A.P. Steegers & Bart C.J.M. Fauser & Carina G.J.M. Hilders
  59. Engineering Mechanics: Statics, 8th Edition: James L. Meriam & L. G. Kraige & J. N. Bolton
  60. Basic Concepts of Psychiatric-Mental Health Nursing, 8th Edition: Louise Rebraca Shives
  61. Beckmann and Ling's Obstetrics and Gynecology, 8th Edition: Robert Casanova
  62. Biology: Concepts and Applications, 10th Edition: Cecie Starr & Christine Evers & Lisa Starr
  63. Estimating in Building Construction, 9th Edition: Steven J. Peterson & Frank R. Dagostino
  64. The Big Back Book: Tips & Tricks for Therapists, 1st Edition: Jane Johnson
  65. University Physics with Modern Physics, 14th Edition: Hugh D. Young & Roger A. Freedman
  66. Poisoning and Drug Overdose, 7th Edition: Kent Olson & Ilene Anderson & Neal Benowitz & Paul Blanc
  67. Koneman's Color Atlas and Textbook of Diagnostic Microbiology, 7th Edition: Gary W. Procop
  68. Experimental Psychology, 7th Edition: Anne Myers & Christine H. Hansen
  69. Marketing: An Introduction, 13th Edition: Gary Armstrong & Philip Kotler
  70. Gray's Anatomy for Students: With Student Consult, 3rd Edition: Richard Drake & A. Wayne Vogl & Adam W. M. Mitchell
  71. Chestnut's Obstetric Anesthesia: Principles and Practice, 5th Edition: David H. Chestnut & Cynthia A Wong & Lawrence C Tsen & Warwick D Ngan Kee & Yaakov Beilin & Jill Mhyre
  72. Chemistry: The Molecular Science, 5th Edition: John W. Moore & Conrad L. Stanitski
  73. Head, Neck and Dental Emergencies, 2nd Edition: Mike Perry
  74. Wong's Nursing Care of Infants and Children, 10th Edition: Marilyn J. Hockenberry & David Wilson
  75. Sports Emergency Care: A Team Approach, 3rd Edition: Robb Rehberg & Jeff G. Konin
  76. New Venture Creation: Entrepreneurship for the 21st Century, 10th Edition: Stephen Spinelli & Rob Adams
  77. Caring for the Vulnerable: Perspectives in Nursing Theory, Practice, and Research, 5th Edition: Mary de Chesnay & Barbara Anderson
  78. Geometry: The Line and the Circle: Maureen T. Carroll & Elyn Rykken
  79. Histories of Human Engineering: Tact and Technology: Maarten Derksen
  80. Land Restoration: Reclaiming Landscapes for a Sustainable Future, 1st Edition: Ilan Chabay & Martin Frick & Jennifer Helgeson
  81. Yamada's Handbook of Gastroenterology, 3rd Edition: Tadataka Yamada & John M. Inadomi & Renuka Bhattacharya & Jason A. Dominitz & Joo Ha Hwang
  82. Theoretical Physics 9: Fundamentals of Many-body Physics, 2nd Edition: Wolfgang Nolting & William D. Brewer
  83. Introduction to Programming with C++, 3rd Edition: Y. Daniel Liang
  84. Dental Emergencies, 1st Edition: Mark Greenwood & Ian Corbett
  85. Fundamentals of Physics and Chemistry of the Atmosphere, 2nd Edition: Guido Visconti
  86. Calculus: Early Transcendentals, 3rd Edition: William L. Briggs & Lyle Cochran & Bernard Gillett & Eric Schulz
  87. Educating Physical Therapists, 1st Edition: Gail Jensen
  88. Strategic Developments in Eurasia After 11 September, 1st Edition: Shireen Hunter
  89. Contemporary Issues in Healthcare Law and Ethics, 4th Edition: Dean Harris
  90. Transitioning from RN to MSN: Principles of Professional Role Development: Brenda Scott & Mindy Thompson
  91. Principles and Practice of Public Health Surveillance, 3rd Edition: Lisa M. Lee & Steven M. Teutsch & Stephen B. Thacker & Michael E. St. Louis
  92. Elementary Statistics: Picturing the World, 6th Edition: Ron Larson & Betsy Farber
  93. Human Sexuality in a World of Diversity, 6th Canadian Edition: Spencer A. Rathus & Jeffrey S. Nevid & Lois Fichner-Rathus & Alex McKay & Robin Milhausen
  94. Becoming Your Own Banker, 6th Edition: R. Nelson Nash
  95. Murach's MySQL, 3rd Edition: Joel Murach
  96. Intermediate Algebra, 13th Edition: Marvin L. Bittinger & Judith A. Beecher & Barbara L. Johnson
  97. Planning Health Promotion Programs: An Intervention Mapping Approach, 4th Edition: L. Kay Bartholomew Eldredge & Christine M. Markham & Robert A. C. Ruiter & Maria E. Fernández & Gerjo Kok & Guy S. Parcel
  98. Human Factors in Simple and Complex Systems, 3rd Edition: Robert W. Proctor & Trisha Van Zandt
  99. The Irony of Democracy: An Uncommon Introduction to American Politics, 17th Edition: Louis Schubert & Thomas R. Dye & Harmon Zeigler
  100. Understanding Earth, 7th Edition: John Grotzinger
  101. Nursing Research in Canada: Methods, Critical Appraisal, and Utilization, 4th Edition: Geri LoBiondo-Wood & Judith Haber & Cherylyn Cameron & Mina Singh
  102. The Philosophy of Film, 1st Edition: Thomas E. Wartenberg & Angela Curran
  103. Disaster Nursing and Emergency Preparedness, 4th Edition: Tener Goodwin Veenema
  104. Language in Mind: An Introduction to Psycholinguistics, 2nd Edition: Julie Sedivy
  105. Medical Anthropology: A Biocultural Approach, 3rd Edition: Andrea S. Wiley & John S. Allen
  106. Exploring Biology in the Laboratory, 3rd Edition: Murray P. Pendarvis & John L. Crawley
  107. Guide to Networking Essentials, 8th Edition: Greg Tomsho
  108. Social Psychology: A Storytelling Approach, 2nd Edition: Leonard Newman & Ralph Erber
  109. Managing Conflict: An Introspective Journey to Negotiating Skills, 1st Edition: Dorothy Balancio
  110. Environmental Change and Challenge: A Canadian Perspective, 5th Edition: Philip Dearden & Bruce Mitchell
  111. Brain and Behavior: A Cognitive Neuroscience Perspective, 1st Edition: David Eagleman & Jonathan Downar
  112. Cardiac/Vascular Nurse Exam Secrets Study Guide: Cardiac/Vascular Nurse Test Review for the Cardiac/Vascular Nurse Exam: Mometrix Media & Cardiac Vascular Nurse Exam Secrets
  113. Keeping the Republic: Power and Citizenship in American Politics, The Essentials, 9th Edition: Christine Barbour & Gerald Wright
  114. Principles of Environmental Science, 9th Edition: William Cunningham & Mary Cunningham
  115. Thomas' Calculus, 14th Edition: Joel R. Hass & Christopher E. Heil & Maurice D. Weir
  116. Pharmacology for Canadian Pharmacy Technicians, 1st Edition: Leland Norman Holland & Michael P. Adams & Jeanine Lynn Brice & Heather V. LeBlanc
  117. Cellular and Molecular Immunology, 9th Edition: Abul K. Abbas & Andrew H. Lichtman & Shiv Pillai
  118. Operations Management: Processes and Supply Chains, 11th Edition: Lee J. Krajewski & Manoj K. Malhotra & Larry P. Ritzman
  119. Jews, Christians, Muslims: A Comparative Introduction to Monotheistic Religions, 2nd Edition: John Corrigan & Frederick Denny & Martin S Jaffee & Carlos Eire
  120. Professional Nursing: Concepts & Challenges, 9th Edition: Beth Black
  121. Practical Homicide Investigation: Tactics, Procedures, and Forensic Techniques, 4th Edition: Vernon J. Geberth
  122. Fundamentals of Modern Manufacturing: Materials, Processes and Systems, 7th Edition: Mikell P. Groover
  123. Genetics: A Conceptual Approach, 7th Edition: Benjamin A. Pierce
  124. Computer Science Illuminated, 7th Edition: Nell Dale & John Lewis
  125. The Globalization of World Politics: An Introduction to International Relations, 8th Edition: John Baylis & Steve Smith & Patricia Owens
  126. Behavioral Neuroscience, 9th Edition: S. Marc Breedlove & Neil V. Watson
  127. Canadian Human Resource Management: A Strategic Approach, 12th Edition: Hermann Schwind & Krista Uggerslev & Terry Wagar & Neil Fassina
  128. Brief Principles of Macroeconomics, 9th Edition: N. Gregory Mankiw
  129. Living in the Environment, 4th Canadian Edition: G. Miller & Dave Hackett & Carl Wolfe
  130. Principles of Economics, 9th Edition: N. Gregory Mankiw
  131. Principles of Microeconomics, 9th Edition: N. Gregory Mankiw
  132. Child Development, 9th Edition: Laura E. Berk
  133. Home, School, and Community Collaboration: Culturally Responsive Family Engagement, 4th Edition: Kathy Beth Grant & Julie A. Ray
  134. Set Lighting Technician's Handbook, 4th Edition: Harry Box
  135. Clinical Nurse Leader Certification Review, 2nd Edition: Cynthia R. King
  136. Basic Chemistry, 4th Edition: Karen C. Timberlake & William Timberlake
  137. Sparks & Taylor's Nursing Diagnosis Pocket Guide, 3rd Edition: Linda Phelps
  138. Family Theories: Foundations and Applications, 1st Edition: Katherine R. Allen & Angela C. Henderson
  139. The Earth and Its Peoples: A Global History, 7th Edition: Richard Bulliet & Pamela Crossley & Daniel Headrick & Steven Hirsch & Lyman Johnson
  140. Sociology in Action: A Canadian Perspective, 3rd Edition: Tami Bereska & Diane Symbaluk
  141. Operations Management: Processes and Supply Chains, 12th Edition: Lee J. Krajewski & Manoj K. Malhotra & Larry P. Ritzman
  142. Introduction to Food Science and Food Systems, 2nd Edition: Rick Parker & Miriah Pace
  143. Liaisons, Student Edition: An Introduction to French, 3rd Edition: Wynne Wong & Stacey Weber-Fève & Bill VanPatten
  144. Zuckerman Parker Handbook of Developmental and Behavioral Pediatrics for Primary Care, 4th Edition: Marilyn Augustyn & Barry Zuckerman
  145. Teaching in Today's Inclusive Classrooms: A Universal Design for Learning Approach, 3rd Edition: Richard M. Gargiulo & Debbie Metcalf
  146. The Biological Basis of Mental Health, 3rd Edition: William T. Blows
  147. Developing and Managing Electronic Collections: The Essentials: Peggy Johnson
  148. Western Civilization: Volume II: Since 1500, 10th Edition: Jackson J. Spielvogel
  149. Talking to Strangers: What We Should Know about the People We Don't Know, 1st Edition: Malcolm Gladwell
  150. Understanding Pathophysiology, 7th Edition: Sue E. Huether & Kathryn L. McCance
  151. Our Environment: A Canadian Perspective, 5th edition: Dianne Draper & Ann Zimmerman
  152. Criminal Law: Cases and Materials, 8th Edition: John Kaplan & Robert Weisberg & Guyora Binder
  153. A Photographic Atlas of Histology, 2nd Edition: Michael J Leboffe
  154. Dragons and Tigers: A Geography of South, East, and Southeast Asia, 3rd Edition: Barbara A. Weightman
  155. Climate Change Biology, 1st Edition: Jonathan A. Newman & Madhur Anand & Hugh A. L. Henry & Shelley L. Hunt & Ze'ev Gedalof
  156. The Power of Critical Thinking: 5th Canadian Edition: Chris MacDonald and Lewis Vaughn
  157. Principles of Fire Behavior and Combustion, 4th Edition: Richard Gann & Raymond Friedman
  158. Informatics Nurse Exam Secrets Study Guide: Informatics Test Review for the Informatics Nurse Certification Exam: Informatics Exam Secrets Test Prep Team
  159. General Chemistry, 10th Edition: Darrell Ebbing & Steven D. Gammon
  160. A Practical Guide to Computer Forensics Investigations, 1st Edition: Darren R. Hayes
  161. Basic Biomechanics, 8th Edition: Susan Hall
  162. Essay Writing for Canadian Students, 8th Edition: Roger Davis & Laura K. Davis
  163. Biology, 11th Edition: Peter Raven & George Johnson & Kenneth Mason & Jonathan Losos & Susan Singer
  164. Molecular Imaging, 1st Edition: Ralph Weissleder& Brian D. Ross & Alnawaz Rehemtulla & Sanjiv Sam Gambhir
  165. Criminology, 4th Edition: Frank Schmalleger
  166. A Theory of Truthmaking: Metaphysics, Ontology, and Reality: Jamin Asay
  167. The Routledge Handbook of Metaphysical Grounding, 1st Edition: Michael J. Raven
  168. Linear Algebra and Its Applications, 5th Edition: David C. Lay & Steven R. Lay & Judi J. McDonald
  169. Essentials of Human Communication, 9th Edition: Joseph A. DeVito
  170. Economics: Principles, Applications, and Tools, 9th Edition, Global Edition: Arthur O'Sullivan & Steven Sheffrin & Stephen Perez
  171. Global Health 101, 3rd Edition: Richard Skolnik
  172. Mathematical Proofs: A Transition to Advanced Mathematics, 4th Edition: Gary Chartrand & Albert D. Polimeni & Ping Zhang
  173. Concepts in Strategic Management and Business Policy: Globalization, Innovation and Sustainability, 15th Edition, Global Edition: Thomas L. Wheelen & J. David Hunger & Alan N. Hoffman & Charles E. Bamford
  174. Chemistry: The Central Science, 14th Edition, Global Edition: Theodore E. Brown & H. Eugene LeMay & Bruce E. Bursten & Catherine Murphy & Patrick Woodward & Matthew E. Stoltzfus
  175. Biopsychology, 10th Edition, Global Edition: John P. J. Pinel & Steven Barnes
  176. Electric Circuits, 11th Edition: James W. Nilsson & Susan Riedel
  177. Keeping the Republic; Power and Citizenship in American Politics, the Essentials, 8th Edition: Christine Barbour & Gerald C Wright
  178. Applied Behavior Analysis: Pearson New International Edition, 2nd Edition: John O. Cooper & Timothy E. Heron & William L. Heward
  179. Cryptography and Network Security: Principles and Practice, 7th Edition, Global Edition: William Stallings
  180. Operating Systems: Internals and Design Principles, 9th Edition, Global Edition: William Stallings
  181. Options, Futures, and Other Derivatives, 9th Edition, Global Edition: John C. Hull
  182. Invitation to the Psychology of Religion, 3rd Edition: Raymond F. Paloutzian
  183. Valuation: The Art and Science of Corporate Investment Decisions, 3rd Edition: Sheridan Titman
  184. Comprehensive Clinical Nephrology, 5th Edition: Richard J. Johnson & John Feehally & Jurgen Floege
  185. Miller & Freund's Probability and Statistics for Engineers, 9th Edition, Global Edition: Richard Johnson & Irwin Miller & John Freund
  186. Exploring Strategy: Text and Cases, 11th Edition: Gerry Johnson & Richard Whittington & Patrick Regnér & Kevan Scholes & Duncan Angwin
  187. Economics for Business, 7th Edition: John Sloman
  188. Essentials of Economics, 7th Edition: John Sloman & Dean Garratt
  189. Economics, 9th Edition: John Sloman & Dean Garratt & Alison Wride
  190. Essential Economics for Business, 5th Edition: Johnsloman & Jones Elizabeth
  191. Finite Mathematics, 7th Edition: Stefan Waner & Steven Costenoble
  192. The SAGE Encyclopedia of Surveillance, Security, and Privacy, 1st Edition: Bruce A. Arrigo
  193. Evolution, 4th Edition: Douglas J. Futuyma & Mark Kirkpatrick
  194. Adult Development and Aging, 7th Edition: John C. Cavanaugh & Fredda Blanchard-Fields
  195. Foundations of Finance, 9th Edition, Global Edition: Arthur J. Keown & John D Martin & J. William Petty
  196. Learning PHP, MySQL & JavaScript: With jQuery, CSS & HTML5, 4th Edition: Robin Nixon
  197. Head First Learn to Code: A Learner's Guide to Coding and Computational Thinking, 1st Edition: Eric Freeman
  198. Learning Swift: Building Apps for macOS, iOS, and Beyond, 3rd Edition: Jonathon Manning & Paris Buttfield-Addison & Tim Nugent
  199. Database Systems: Design, Implementation, & Management, 12th Edition: Carlos Coronel & Steven Morris
  200. Introduction to Solid Modeling Using SolidWorks, 13th Edition: William Howard & Joseph Musto
  201. Communications Receivers: Principles and Design, 4th Edition: Ulrich Rohde & Jerry Whitaker & Hans Zahnd
  202. Connect Core Concepts in Health, 15th Edition: Paul Insel & Walton Roth
  203. On Course: Strategies for Creating Success in College and in Life, 8th Edition: Skip Downing
  204. Vander's Human Physiology, 15th Edition: Eric Widmaier & Hershel Raff & Kevin Strang
  205. Biology, 4th Edition: Robert Brooker & Eric Widmaier & Linda Graham & Peter Stiling
  206. The Essentials of Statistics: A Tool for Social Research, 4th Edition: Joseph F. Healey
  207. Oracle 12c: SQL, 3rd Edition: Joan Casteel
  208. Global Business Today, 10th Edition: Charles Hill & G. Tomas M. Hult
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  211. International Management: Culture, Strategy, and Behavior, 10th Edition: Fred Luthans & Jonathan Doh
  212. CorelDRAW X8: The Official Guide, 12th Edition: Gary David Bouton
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  214. Programmable Logic Controllers, 5th Edition: Frank Petruzella
  215. Foundations in Microbiology, 10th Edition: Kathleen Park Talaro & Barry Chess
  216. Applied Numerical Methods with MATLAB for Engineers and Scientists, 4th Edition: Steven Chapra
  217. Tonal Harmony, 8th Edition: Stefan Kostka & Dorothy Payne & Byron Almén
  218. Discrete Mathematics, 8th Edition: Richard Johnsonbaugh
  219. Bates' Pocket Guide to Physical Examination and History Taking, 8th Edition: Lynn S. Bickley
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  221. Biology: Concepts and Investigations, 4th Edition: Mariëlle Hoefnagels
  222. Biology: Concepts and Investigations, 3rd Edition: Mariëlle Hoefnagels
  223. Human Biology: Concepts and Current Issues, 8th Edition, Global Edition: Michael D. Johnson
  224. Messages: Building Interpersonal Communication Skills, 5th Canadian Edition: Joseph A. DeVito & Rena Shimoni & Dawne Clark
  225. The Interpersonal Communication Book, 14th Edition, Global Edition: Joseph A. DeVito
  226. Computational Systems Pharmacology and Toxicology, 1st Edition: Rudy J Richardson & Dale E Johnson & Noffisat Oki & David Faulkner
  227. Shelly Cashman Series Microsoft Office 365 & Office 2019 Introductory, 1st Edition: Sandra Cable & Steven M. Freund & Ellen Monk & Susan L. Sebok & Joy L. Starks
  228. The Practice of Emotionally Focused Couple Therapy: Creating Connection, 2nd Edition: Susan M. Johnson
  229. The Marriage Clinic: A Scientifically Based Marital Therapy, 1st Edition: John M. Gottman
  230. Cognitive-Behavioral Therapy with Couples and Families: A Comprehensive Guide for Clinicians, 1st Edition: Frank M. Dattilio & Aaron T. Beck
  231. International Marketing, 17th Edition: Philip R. Cateora & John Graham & Mary C Gilly
  232. Kaplan and Sadock's Concise Textbook of Clinical Psychiatry, 3rd Edition: Benjamin Sadock & Virginia Alcott Sadock
  233. Anthropology, 14th Edition: Carol R. Ember & Melvin Ember & Peter N. Peregrine
  234. The Men They Will Become: The Nature And Nurture Of Male Character: Eli Newberger
  235. Accounting, 27th Edition: Carl S. Warren & James M. Reeve & Jonathan Duchac
  236. ICD-10-CM 2019: The Complete Official Codebook, 1st Edition: American Medical Association
  237. Essentials of Human Anatomy & Physiology, 12th Edition, Global Edition: Elaine N. Marieb & Suzanne M. Keller
  238. Early Childhood Education Today, 14th Edition: George S Morrison
  239. Programming Bitcoin: Learn How to Program Bitcoin from Scratch, 1st Edition: Jimmy Song
  240. The Physiology and Biochemistry of Prokaryotes, 4th Edition: David White & James Drummond & Clay Fuqua
  241. Environmental Microbiology, 3rd Edition: Ian L. Pepper & Charles P. Gerba & Terry J. Gentry
  242. Industrial Microbiology: An Introduction, 1st Edition: Michael J. Waites & Neil L. Morgan & John S. Rockey & Gary Higton
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  244. Introduction to Econometrics, 3rd Edition: James H. Stock & Mark W. Watson
  245. Expert Oracle Application Express, 2nd Edition: Doug Gault & Dimitri Gielis & Martin DSouza & Roel Hartman
  246. The Art of Reasoning: An Introduction to Logic and Critical Thinking, 4th Edition: David Kelley
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  248. Applied Fluid Mechanics, 7th Edition: Robert L. Mott & Joseph A. Untener
  249. Applied Strength of Materials, SI Units Version, 6th Edition: Robert L. Mott & Joseph A. Untener
  250. Social Psychology, 12th Edition: David Myers & Jean Twenge
  251. Applied Strength of Materials, 6th Edition: Robert Mott & Joseph A. Untener
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  253. Molecular Cell Biology, 8th Edition: Harvey Lodish & Arnold Berk & Chris A. Kaiser & Monty Krieger & Anthony Bretscher
  254. Machine Elements in Mechanical Design, 6th Edition: Robert L. Mott & Edward M. Vavrek & Jyhwen Wang
  255. DeVita, Hellman, and Rosenberg's Cancer, 11th Edition: Vincent T. DeVita & Steven A. Rosenberg & Theodore S. Lawrence
  256. Particle Image Velocimetry: A Practical Guide, 3rd Edition: Markus Raffel & Christian E. Willert & Fulvio Scarano & Christian J. Kähler
  257. Smith's Textbook of Endourology, 4th Edition: Arthur D. Smith & Glenn Preminger & Gopal H. Badlani & Louis R. Kavoussi
  258. College Algebra with Modeling & Visualization, 6th Edition: Gary K. Rockswold
  259. Financial Accounting Theory, 7th Edition: William R. Scott
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  264. Business Analytics, 4th Edition: Jeffrey D. Camm & James J. Cochran & Michael J. Fry & Jeffrey W. Ohlmann
  265. Biological Psychology, 13th Edition: James W. Kalat
  266. Business Communication Today, 14th Edition: Courtland L. Bovee & John V. Thill
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  268. Principles of Information Security, 6th Edition: Michael E. Whitman & Herbert J. Mattord
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  270. Corporate Finance: Theory and Practice, 5th Edition: Pierre Vernimmen & Pascal Quiry & Maurizio Dallocchio & Yann Le Fur & Antonio Salvi
  271. Introductory Statistics, 10th Edition: Neil A. Weiss
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  274. Introduction to Mathematical Statistics, 8th Edition: Robert V. Hogg & Joseph W. McKean & Allen T. Craig
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  276. Geosystems An Introduction to Physical Geography, Global Edition, 9th Edition: Ginger H. Birkel & Robert W. Christopherson
  277. Scientific American Environmental Science for a Changing World, 2nd Edition: Jeneen InterlandI & Anne Houtman
  278. Precalculus, 10th Edition: Ron Larson
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  280. Introduction to Materials Science for Engineers, 8th Edition: James F. Shackelford
  281. Adobe Dreamweaver CC Classroom in a Book, 1st Edition: Jim Maivald
  282. Trigonometry, 11th Edition: Margaret L. Lial & John Hornsby & David I. Schneider & Callie Daniels
  283. Investment Banks, Hedge Funds, and Private Equity, 3rd Edition: David P. Stowell
  284. Cognitive Neuroscience: The Biology of the Mind, 5th Edition: Michael Gazzaniga & Richard B. Ivry & George R. Mangun
  285. Cognitive Neuroscience: The Biology of the Mind, 5th Edition: Michael Gazzaniga & Richard B. Ivry (Author), George R. Mangun (Author)
  286. Project Management Theory and Practice, 3rd Edition: Gary L. Richardson & Brad M. Jackson
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  311. Contemporary Logistics, 12th Edition, Global Edition: Paul R. Murphy & A. Michael Knemeyer
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  313. Mechanical Engineers' Handbook, Volume 2: Design, Instrumentation, and Controls, 4th Edition: Myer Kutz
  314. Mechanical Engineers' Handbook, Volume 3: Manufacturing and Management, 4th Edition: Myer Kutz
  315. Mechanical Engineers' Handbook, Volume 4: Energy and Power, 4th Edition: Myer Kutz
  316. An Introduction to Mathematical Statistics and Its Applications, 6th Edition: Richard J. Larsen & Morris L. Marx
  317. Developmental Mathematics, 1st Edition: Robert F. Blitzer
  318. Thinking Mathematically, 7th Edition: Robert F. Blitzer
  319. Wardlaw's Contemporary Nutrition, 10th Edition: Anne Smith & Angela Collene
  320. Mathematical Statistics: An Introduction to Likelihood Based Inference, 1st Edition: Richard J. Rossi
  321. Asking the Right Questions, 11th Edition: M. Neil Browne & Stuart M. Keeley
  322. Asking the Right Questions, 11th Edition, Global Edition: M. Neil Browne & Stuart M. Keeley
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  325. Unlocking Equity and Trusts, 5th Edition: Mohamed Ramjohn
  326. Public Speaking: The Evolving Art, 4th Edition: Stephanie J. Coopman & James Lull
  327. Social Psychology, 8th Edition: Michael Hogg & Graham Vaughan
  328. Human Resources Management in Canada, 12th Canadian Edition: Gary Dessler & Nita Chhinzer & Nina Cole
  329. Law Core Textbook Bundle: Equity and Trusts, 8th edition: Alastair Hudson
  330. Living Ethics: An Introduction with Readings: Russ Shafer-Landau
  331. Microsoft Project 2019 Step by Step, 1st Edition: Cindy Lewis & Carl Chatfield & Timothy Johnson
  332. Global Business Ethics: Responsible Decision Making in an International Context, 1st Edition: Ronald D Francis & Guy Murfey
  333. Construction Management: Theory and Practice, 1st Edition: Chris March
  334. Harrison's Endocrinology, 4th Edition: J. Larry Jameson
  335. Harrison's Neurology in Clinical Medicine, 4th Edition: Stephen Hauser & S. Andrew Josephson
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  338. Ashcraft's Pediatric Surgery, 6th Edition: George W. Holcomb III & J. Patrick Murphy & Daniel J Ostlie
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  340. Lange Clinical Neurology, 10th Edition: Roger Simon & David Greenberg & Michael Aminoff
  341. International Textbook of Diabetes Mellitus, 2 Volume Set, 4th Edition: R. A. DeFronzo & E. Ferrannini & Paul Zimmet & George Alberti
  342. Java Programming, 9th Edition: Joyce Farrell
  343. Discovering Behavioral Neuroscience: An Introduction to Biological Psychology, 4th Edition: Laura Freberg
  344. How the Immune System Works, 5th Edition: Lauren M. Sompayrac
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  349. Financial Management: Principles and Applications, Global Edition, 13th Edition: Sheridan Titman & Arthur J. Keown & John D Martin
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  352. MRI: Basic Principles and Applications, 5th Edition: Brian M. Dale & Mark A. Brown & Richard C. Semelka
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  354. Rosen's Emergency Medicine: Concepts and Clinical Practice: 2-Volume Set, 9th Edition: Ron Walls & Robert Hockberger & Marianne Gausche-Hill
  355. BNF for Children: 2018-2019, 1st Edition: Paediatric Formulary Committee
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  357. Practical Gastroenterology and Hepatology Board Review Toolkit, 2nd Edition: Kenneth R. DeVault & Michael B. Wallace & Bashar A. Aqel & Keith D. Lindor
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Prove a Whole Blockchain, with One Math Problem...

Prove a Whole Blockchain, with One Math Problem...
https://preview.redd.it/esdrwkonhqm31.jpg?width=2500&format=pjpg&auto=webp&s=51634715a542497a7c014c7c36b58509361456a0
The Electric Coin Company (ECC) says it discovered a new way to scale blockchains with “recursive proof composition,” a proof to verify the entirety of a blockchain in one function. For the ECC and zcash, the new project, Halo, may hold the key to privacy at scale.
A privacy coin based on zero-knowledge proofs, referred to as zk-SNARKs, zcash’s current underlying protocol relies on “trusted setups.” These mathematical parameters were used twice in zcash’s short history: upon its launch in 2016 and first large protocol change, Sapling, in 2018.
Zcash masks transations through zk-SNARKs but the creation of initial parameters remains an issue. By not destroying a transaction’s mathematical foundation – the trusted setup – the holder can produce forged zcash.
Moreover, the elaborate ‘ceremonies‘ the zcash community undergoes to create the trusted setups are expensive and a weak point for the entire system. The reliance on trusted setups with zk-SNARKs was well known even before zcash’s debut in 2016. While other research failed to close the gap, recursive proofs make trusted setups a thing of the past, the ECC claims.

Bowe’s Halo

Speaking with CoinDesk, ECC engineer and Halo inventor Sean Bowe said recursive proof composition is the result of years of labor – by him and others – and months of personal frustration. In fact, he almost gave up three separate times.
Bowe began working for the ECC after his interest in zk-SNARKs was noticed by ECC CEO and zcash co-founder Zooko Wilcox in 2015. After helping launch zcash and its first significant protocol change with Sapling, Bowe moved to full-time research with the company.
Before Halo, Bowe worked on a different zk-SNARK variant, Sonic, requiring only one trusted setup.
For most cypherpunks, that’s one too many.
“People we are also starting to think as far back as 2008, we should be able to have proofs that can verify other proofs, what we call recursive proof composition. This happened in 2014,” Bowe told CoinDesk.

Proofs, proofs and more proofs

In essence, Bowe and Co. discovered a new method of proving the validity of transactions, while masked, by compressing computational data to the bare minimum. As the ECC paper puts it, “proofs that are capable of verifying other instances of themselves.”
Blockchain transaction such as bitcoin and zcash are based on elliptic curves with points on the curve serving as the basis for the public and private keys. The public address can be thought of the curve: we know what the elliptic curve looks like in general. What we do not know is where the private addresses are which reside on the curve.
It is the function of zk-SNARKs to communicate about private addresses and transactions–if an address exists and where it exists on the curve–anonymously.

Bowe’s work is similar to bulletproofs, another zk-SNARK that requires no trusted setup. “What you should think of when you think of Halo is like recursive bulletproofs,” Bowe said.
From a technical standpoint, bulletproofs rely on the “inner product argument,” which relays certain information about the curves to one another. Unfortunately, the argument is both very expensive and time consuming compared to your typical zk-SNARK verification.
By proving multiple zk-SNARKs with one–a task thought impossible until Bowe’s research–computational energy is pruned to a fraction of the cost.
“People have been thinking of bulletproofs on top of bulletproofs. The problem the bulletproof verifier is extremely expensive because of the inner product argument,” Bowe said. “I don’t use bulletproofs exactly, I use a previous idea bulletproofs are built on.”
In fact, Bowe said recursive proofs mean you can prove the entirety of the bitcoin blockchain in less space than a bitcoin blockhead takes – 80-bytes of data.

The future of zcash

Writing on Twitter, Wilcox said his company is currently studying the Halo implementation as a Layer 1 solution on zcash.
Layer 1 solutions are implementations into the codebase constituting a blockchain. Most scaling solutions, like bitcoin’s Lightning Network, are Layer 2 solutions built on top of a blockchain’s state. The ECC’s interest in turning Halo into a Layer 1 solution speaks to the originality of the discovery as it will reside next to code copied from bitcoin’s creator himself, Satoshi Nakamoto.
ECC is exploring the use of Halo for Zcash to both eliminate trusted setup and to scale Zcash at Layer 1 using nested proof composition.

Since the early days of privacy coins, scaling has been a contentious issue: with so much data needed to mask transactions, how do you grow a global network?
Bowe and the ECC claim recursive proofs solve this dilemma: with only one proof needed to verify an entire blockchain, data concerns could be a thing of the past:
“Privacy and scalability are two different concepts, but they come together nicely here. About 5 years ago, academics were working on recursive snarks, a proof that could verify itself or another proof [and even] verify multiple proofs. So, what [recursive proof composition] means is you only need one proof to verify an entire blockchain.”
To be sure, this isn’t sophomore-level algebra: Bowe told CoinDesk the proof alone took close to nine months of glueing various pieces together.

A new way to node

A further implication of recursive proofs is the amount of data stored on the blockchain. Since the entire ledger can be verified in one function, onboarding new nodes will be easier than ever, Bowe said.
“You’re going to see blockchains that have much higher capacity because you don’t have to communicate the entire history in one. The state chain still needs to be seen. But if you want to entire the network you don’t need to download the entire blockchain.”
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K-L 1k-5k

[ Removed by reddit in response to a copyright notice. ]
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You Can Now Prove a Whole Blockchain With One Math Problem — Really

You Can Now Prove a Whole Blockchain With One Math Problem — Really


Article by Coindesk: William Foxley
The Electric Coin Company (ECC) says it discovered a new way to scale blockchains with “recursive proof composition,” a proof to verify the entirety of a blockchain in one function. For the ECC and zcash, the new project, Halo, may hold the key to privacy at scale.
A privacy coin based on zero-knowledge proofs, referred to as zk-SNARKs, zcash’s current underlying protocol relies on “trusted setups.” These mathematical parameters were used twice in zcash’s short history: upon its launch in 2016 and first large protocol change, Sapling, in 2018.
Zcash masks transations through zk-SNARKs but the creation of initial parameters remains an issue. By not destroying a transaction’s mathematical foundation — the trusted setup — the holder can produce forged zcash.
Moreover, the elaborate ‘ceremonies‘ the zcash community undergoes to create the trusted setups are expensive and a weak point for the entire system. The reliance on trusted setups with zk-SNARKs was well known even before zcash’s debut in 2016. While other research failed to close the gap, recursive proofs make trusted setups a thing of the past, the ECC claims.

Bowe’s Halo

Speaking with CoinDesk, ECC engineer and Halo inventor Sean Bowe said recursive proof composition is the result of years of labor — by him and others — and months of personal frustration. In fact, he almost gave up three separate times.
Bowe began working for the ECC after his interest in zk-SNARKs was noticed by ECC CEO and zcash co-founder Zooko Wilcox in 2015. After helping launch zcash and its first significant protocol change with Sapling, Bowe moved to full-time research with the company.
Before Halo, Bowe worked on a different zk-SNARK variant, Sonic, requiring only one trusted setup.
For most cypherpunks, that’s one too many.
“People we are also starting to think as far back as 2008, we should be able to have proofs that can verify other proofs, what we call recursive proof composition. This happened in 2014,” Bowe told CoinDesk.

Proofs, proofs and more proofs

In essence, Bowe and Co. discovered a new method of proving the validity of transactions, while masked, by compressing computational data to the bare minimum. As the ECC paper puts it, “proofs that are capable of verifying other instances of themselves.”
Blockchain transaction such as bitcoin and zcash are based on elliptic curves with points on the curve serving as the basis for the public and private keys. The public address can be thought of the curve: we know what the elliptic curve looks like in general. What we do not know is where the private addresses are which reside on the curve.
It is the function of zk-SNARKs to communicate about private addresses and transactions–if an address exists and where it exists on the curve–anonymously.
The secp256k1 elliptic curve, used for bitcoin and ethereum via Hackernoon
Bowe’s work is similar to bulletproofs, another zk-SNARK that requires no trusted setup. “What you should think of when you think of Halo is like recursive bulletproofs,” Bowe said.
From a technical standpoint, bulletproofs rely on the “inner product argument,” which relays certain information about the curves to one another. Unfortunately, the argument is both very expensive and time consuming compared to your typical zk-SNARK verification.
By proving multiple zk-SNARKs with one–a task thought impossible until Bowe’s research–computational energy is pruned to a fraction of the cost.
“People have been thinking of bulletproofs on top of bulletproofs. The problem the bulletproof verifier is extremely expensive because of the inner product argument,” Bowe said. “I don’t use bulletproofs exactly, I use a previous idea bulletproofs are built on.”
In fact, Bowe said recursive proofs mean you can prove the entirety of the bitcoin blockchain in less space than a bitcoin blockhead takes — 80-bytes of data.

The future of zcash

Writing on Twitter, Wilcox said his company is currently studying the Halo implementation as a Layer 1 solution on zcash.
Layer 1 solutions are implementations into the codebase constituting a blockchain. Most scaling solutions, like bitcoin’s Lightning Network, are Layer 2 solutions built on top of a blockchain’s state. The ECC’s interest in turning Halo into a Layer 1 solution speaks to the originality of the discovery as it will reside next to code copied from bitcoin’s creator himself, Satoshi Nakamoto.
ECC is exploring the use of Halo for Zcash to both eliminate trusted setup and to scale Zcash at Layer 1 using nested proof composition.
— zooko (@zooko) September 10, 2019
Since the early days of privacy coins, scaling has been a contentious issue: with so much data needed to mask transactions, how do you grow a global network?
Bowe and the ECC claim recursive proofs solve this dilemma: with only one proof needed to verify an entire blockchain, data concerns could be a thing of the past:
“Privacy and scalability are two different concepts, but they come together nicely here. About 5 years ago, academics were working on recursive snarks, a proof that could verify itself or another proof [and even] verify multiple proofs. So, what [recursive proof composition] means is you only need one proof to verify an entire blockchain.”
To be sure, this isn’t sophomore-level algebra: Bowe told CoinDesk the proof alone took close to nine months of glueing various pieces together.

A new way to node

A further implication of recursive proofs is the amount of data stored on the blockchain. Since the entire ledger can be verified in one function, onboarding new nodes will be easier than ever, Bowe said.
“You’re going to see blockchains that have much higher capacity because you don’t have to communicate the entire history in one. The state chain still needs to be seen. But if you want to entire the network you don’t need to download the entire blockchain.”
While state chains still need to be monitored for basic transaction verification, syncing the entire history of a blockchain–over 400 GB and 200 GB for ethereum and bitcoin respectively–becomes a redundancy.
For zcash, Halo means easier hard forks. Without trusted setups, ECC research claims, “proofs of state changes need only reference the latest proof, allowing old history to be discarded forever.”
When asked where his discovery ranks with other advancements, Bowe spoke on its practicality:
“Where does this stand in the grand scheme of things in cryptocurrency? It’s a cryptographic tool to compress computation… and scale protocols.”
Rubix cube image via Shutterstock
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Surae's (me) end-of-November (2017!) update.

You can check it out on the forums here. Here's a copypasta:
Surae's End of November (2017!) Update
Hello, everyone! Sarang posted his update a few days ago to give the community time to review his work before the end of the month. I was hoping to finish multisig off before the end of this month... so I held off on writing this update until then... but it looks like I'm somewhere between 2 days and a week behind on that estimate.
MRL Announcements
Meetings. We are holding weekly meetings on Mondays at 17:00 UTC. Logs are to be posted on my github soon(tm). Usually we alternate between "office hours" and "research meetings." At office hours, we want members of the community to come in and be able to ask questions, so we are considering opening up a relay to the freenode channel during office hours times, unless things get out of hand.
POW-Difficulty Replacement Contest. Some time in December, I am going to formalize an FFS "idea" to open up a multiple-round contest for possible replacements for our proof of work game. The first round would have a 3- or 6-month deadline. Personally, I would love it if this FFS could have an unbounded reward amount. If the community is extremely generous, we could easily whip up a large enough reward to spur lots and lots of interest across the world.
The Bitcoin POW game uses SHA256 to find nonces that produce hashes with sufficiently small digests according to the Bitcoin difficulty metric. Our current POW game uses CryptoNight to find nonces that produce hashes with sufficiently small digests according to the CryptoNote difficulty metric. The winner need not be proof of work. My current thoughts are roughly this:
All submissions will be public. Submissions that minimize incentives for centralized mining (or maximize disincentives) will be preferred over submissions that do not. Submissions that are elegant will be preferred over submissions that are not. Submissions that have provable claims about desirable properties will be preferred over submissions that do not (e.g. for either the Bitcoin or the Monero POW games, the necessary and sufficient network conditions for these games to produce blocks in a Poisson process have not been identified, to my understanding). Submissions that have a smaller environmental impact will be preferred over submissions that have a larger impact. And so on. I would like as many ideas as possible about a judging rubric for the first round. Especially if a large amount of money will be put up as a prize.
The details of the next round would be announced along with the winners of the first round. The reward funds should be released when a set of judges agree on a winner. MRL and Monero Core should each have representation on the panel of judges, and there ought to be at least one independent judge not directly associated with the Monero Project, like Peter Todd, Tim Ruffing, or someone along those lines. But, again, this is just an idea. If the community doesn't like it, we can drop it.
Here is a rundown for November
Multisig. Almost done. I know, I know, it's been forever. We, as a community, have recently come to see how important it is to carefully and formally ensure the correctness of our schemes before proceeding. Multisig is a delicate thing because a naively implemented multisig can reveal information about the participants.
I'm finishing vetting key creation today, finishing signatures tomorrow and the next day. Then I'm passing the result off to moneromooo and luigi to ensure that my description of their code is accurate up to their understanding. Then onto Sarang for final reviews before submission, hopefully by the end of the month. I have my life until Sunday evening blocked off to finish this. A copy of the document will be made available to the community ASAP (an older version is on my github), after more checking and writing is completed.
This whitepaper on multisig will be broken into two papers: one will be intended for peer review describing multi-ring signatures, and one will be a Monero Standard. More about that later...
RTRS RingCT column-linkability and amortization. You may say "what? I thought we were putting RTRS RingCT on the back burner?" Well, I'm still think ing about amortization of signatures. I'm thinking it will be possible (although perhaps not feasible) for miners to include amortized signatures upon finding new blocks. This would allow users to cite an amortized signature for fast verification, but has some possible drawbacks. But more exciting, I'm also chatting with Tim Ruffing, one of the authors on the RTRS RingCT papers: he thinks he has a solution to our "linkability by columns" problem with MLSAG and RingCT. Currently we try to avoid using more than one ring signature per recipient. This avoids linking distinct outputs based on bundling of these ring signatures. Ruffing believes RTRS RingCT can be tweaked to prove several commitments in a vector of commitments; this would allow a single RTRS RingCT to be computed and checked for each output being spent.
Once all the details are checked, I'll write up a document and make a copy of it available to the community. If it works, of course.
Consequences of bulletproofs. In my last end-of-month update I hinted at issues with an exponential space-time trade-off in RTRS RingCT. Due to the speed and space savings with bulletproofs, it may now be feasible to implement RTRS RingCT. With improved verification time savings with bulletproofs we can relax our requirements for verification times for signatures. This will allow the slightly longer verification times of RTRS RingCT to be counter-acted. Solving the problem "what ring sizes can we really get away with?" involves some modeling and solving some linear programming problems (linear programming, or linear optimization, is an anachronistically named area of applied mathematics involved with optimizing logistic problems... see here for more information).
Hence, we will be inserting bulletproofs into Monero with low friction, and then we will look into the logistics of moving to RTRS RingCT.
Monero Standards. Right now, we don't have a comprehensive list of how Monero works, all the various primitives and how they all fit together. Sarang and I have begun working on some Monero Standards that are similar to the original Cryptonote Standards (see here for more information). For each standard, from our hash function on upward, we will describe the standard, provide a justification for Monero's choices in those standards (complete with references), as well as a list of possible replacement standards. For example, our Monero RingCT Standard should describe the RingCT scheme described by shen, which is essentially a ring signature with linear combinations of signing keys + amount commitments. Under the "possible replacements" section, we would describe both the RTRS RingCT scheme and the doubly efficient zk-snark technology as two separate options.
These standards may take awhile to complete, and will be living documents as we change the protocol over the years. In the meantime, it will make it dramatically easier for future researchers to step into MRL and pick up where previous researchers have left off.
Hierarchical view keys. Exploiting the algebra we currently use for computing one-time keys, the sub-address scheme plays with view keys in a certain way, allowing a user to have one single view key for many wallets. Similarly, we may split a view key into several shares, where each subset of shares can be used to grant partial view access to the wallet. A receiver can request that a sender use a particular basepoint in their transaction key where different subsets of shares of the view key grant access to transactions with different basepoints in their transaction keys. None of these are protocol-level observations, they are wallet-level observations. Moreover, these require only that a receiver optionally specify a basepoint.
In other words: hierarchical view keys are a latent feature of our one-time address scheme that has not seen specific development yet. It's a rather low priority compared to the other projects under development; it grants users fine-grained control over their legal compliance, but Monero Standards will have great long-term impact on development and research at Monero.
Criticisms. Monero has suffered some recent criticisms about our hash function. I want to briefly address them.
First, I believe part of the criticism came from a confusion between Keccak3, SHA-3, and Keccak: we have never claimed to use SHA-3 as our hash function, we have only used the Keccak3 hash function, which is a legacy choice inherited from the original CryptoNote reference code. Many developers confuse the two, but Keccak3 was the hash function on which SHA-3 is based. In particular, the Keccak sponge construction can be used to fashion lots and lots of primitives, all of which could fairly be called "Keccak:" both Keccak3 and SHA-3 are Keccak constructions. This may be a subtle nomenclature issue, but it's important because a good portion of our criticisms say "Hey, they aren't using SHA-3!"
Second, I believe part of the criticism also comes from our choice of library, which in my opinion isn't a big deal as long as the library does what it says on the tin. In this case, our hash function is a valid implementation of Keccak3 according to the Keccak3 documentation. The most important criticism, from my point of view, is our choice of pre-SHA-3 Keccak3 as our hash function. Keccak3 underwent lots of analysis during the SHA contest, and Keccak3 is a well-vetted hash funtion. However, it has not been chosen as an international standard. There is a sentiment in the cryptocurrency community to distrust standards, which is probably a healthy sentiment. In this case, however, it means that our choice of hash function is not likely to be supported in common, well-vetted libraries in the future. Moreover, since SHA-3 is an international standard, it shall be undergoing heavy stress testing over the coming decades, a benefit Keccak3 shall not enjoy.
Last month, after some discussions, we made changes to our choice of PRNG in Monero to match the PRNG for Bitcoin. There has since been some discussions instantiated by anonimal about this choice of PRNG. We at MRL are doing our best to assist the core team in weighing the relative costs and benefits of switching to a library like crypto++, and so we believe these criticisms fall into the same category. We intend to address these issues and make formal recommendations in the aforementioned Monero Standards. Sorry for using the word aforementioned.
Things that didn't move much include a) educational outreach, b) SPECTRE, c) anti-ASIC roadmap, d) refund transactions. Most of which was on hold to complete multisig.
As far as educational outreach, I contacted a few members of a few math/cs depts at universities around me, but I haven't gotten anything hopeful yet. I wanted to go local (with respect to me) to make it easier to organize, but that's looking less likely. No matter how enthusiastic of a department we find, garnering participation from faculty members, beginning an application process for new students, squirelling up funding, working out logistics of getting teachers or lecturers/speakers from point A to point B, where to stash students, etc would be a challenge to finish before, say, July. And some schools start their fall semesters in mid-August. So I'm thinking that Summer 2019 is reasonable as the first Monero Summer School... and would be a real fun way to finish off a two-year post-doc!
December plan. I am going to finish multisig, and then finish the zk-lit review with Jeffrey Quesnelle, since these are both slam dunks. Any other time in December I have will be devoted to a) looking into the logistics of using the bulletproofs + RTRS RingCT set-up, b) reading the new zk-stark paper and assessing its importance for Monero, c) beginning work on Monero Standards, which includes addressing our hash function criticisms, our PRNG, etc.
Thank you again! This is an incredible opportunity, and this community is filled with some smart cookies. Every day is a challenge, and I couldn't ask for a more fun thing to be doing with my life right now. I'm hoping that my work ends up making Monero better for you.
submitted by snoether to Monero [link] [comments]

The bug which the "DAO hacker" exploited was *not* "merely in the DAO itself" (ie, *separate* from Ethereum). The bug was in Ethereum's *language design* itself (Solidity / EVM - Ethereum Virtual Machine) - shown by the "recursive call bug discovery" divulged (and dismissed) on slock.it last week.

TL;DR:
I just read the latest post from Emin Gün Sirer, and it basically took him only two lines to say pretty much everything I tried to say in my "wall of text" below:
http://hackingdistributed.com/2016/06/17/thoughts-on-the-dao-hack/
What's a Hack When You Don't Have a Spec?
First of all, I'm not even sure that this qualifies as a hack. To label something as a hack or a bug or unwanted behavior, we need to have a specification of the wanted behavior.
UPDATE: Wow. I just found these other two threads that are making arguments similar to what I'm saying here (but they're much, much more sophisticated than anything I managed to say here). I am very encouraged that people with expertise in functional languages, formal methods, and proof theory are paying attention to Ethereum and cryptocurrencies.
https://np.reddit.com/haskell/comments/4ois15/would_the_smart_formal_methods_people_here_mind/
https://np.reddit.com/ethereum/comments/4oimok/can_we_please_never_again_put_100m_in_a_contract/
Long-term, this kind of stuff is the only way that Ethereum will be able to succeed as a system for high-value smart contracts (like "The DAO" was meant to be).
And long-term, I also think it will be very important for Bitcoin to also use these kinds of approaches. (And doing something like providing a formal specification and a proof of correctness for Bitcoin using Coq + Ocaml, or reimplementing Bitcoin using Ocaml + MirageOS, would be much easier than doing this kind of stuff for Ethereum - since Bitcoin is so much simpler.)
It's also a total culture shock to go into a thread on ethereum - and see it full of real programmers. You never see a thread on r\bitcoin or btc full of real programmers - they've all been chased away by nullc.
Seriously, scroll down through that thread on ethereum linked above. Have you ever seen so many programming heavyweights discussing Bitcoin?
What is it about the Ethereum community where serious programmers feel welcome to comment - but in the Bitcoin community, they don't?
The original OP:
The world already has enough crappy buggy websites based on a mish-mash of error-prone procedural JavaScript - a low-level, procedural language which is notorious for its lack of formal semantics and verification.
JavaScript is such a mess that almost no webdesigners directly program in it any more - they work in one of the many higher-level "JavaScript frameworks", and/or use a higher-level language which "compiles to" JavaScript.
The mere fact that there are so many of these higher-level alternatives simply proves that a low-level language like JavaScript is not useful on its own:
https://duckduckgo.com/?t=disconnect&x=%2Fhtml&q=languages+that+compile+to+javascript&ia=web
https://github.com/jashkenas/coffeescript/wiki/List-of-languages-that-compile-to-JS
JavaScript is the "assembly language" of the web:
https://duckduckgo.com/?q=javascript+assembly+language+web&t=disconnect&ia=web
Every day, you visit websites (on your computer, on your smartphone) where some JavaScript error occurs. The page is displayed incorrectly, and you go on with your life.
There is a reason why crappy error-prone procedural low-level languages like JavaScript aren't used to power nuclear reactors, or missile systems, or X-ray machines - or financial applications.
Programs produced by these crappy low-level procedural languages routinely have bugs.
These languages are only used for unimportant things consumer-facing websites.
(And most of those pages were not even written directly in JavaScript - they used one of those higher-level frameworks / languages in the first links above. But still - the website generated errors.)
What do the Big Boys use?
The US Department of Defense doesn't program missile systems in low-level procedural languages like JavaScript - they use languages like ADA and Spark (and higher-level specification languages like ANNA) - where the language design itself guarantees that things like some ridiculous "recursive call bug" simply cannot happen - and where the use of a specification language forces the programmer to spell out in advance what the program is supposed to do, before digging down into the implementation details of how it's supposed to do it.
And your boring old bank uses declarative workhorses like SQL - where most of the work can be done without even running any procedural code - avoiding the very notion of "recursion" in the first place.
Now, some Ethereum devs put together an investment fund controlling a quarter of a billion dollars - using a language which looks and feels (and runs) a helluva lot like JavaScript: Ethereum's Solidity.
And the whole thing blew up in their face - because the language design of Ethereum's Solidity was total wrong.
Contractual law / human society should not run by these kinds of crappy bug-prone low-level procedural languages.
The Big Boys derive provably correct implementations from very-high-level specifications
Note that "The DAO" had two different "descriptions":
  • An non-binding, high-level, more human-readable one (in ancillary materials, posted separately)
  • A binding, low-level, less human-readable one (the actual code)
This is ok for unimportant projects.
But for important projects, the "high-level, more human-readable" version is actually written in a formal specification language which supports things like automatically deriving the implementation from it (and mathematicaly proving that the implementation is correct - ie, that is satisfies the specification).
So, when using a formal specification language coupled with an implementation language, the two verions of the system are "linked" - ie, the implementation is mechanistically derived from the specification, and formal tools for derivation and validation can be used to mathematically prove that the (less human-readable) implementation has the exact same semantics as the (more human-readable) specification.
How many cryptocurrency scripting kiddies actually know this stuff?
Lots of this stuff is probably foreign to all these scripting kiddies and web designers whose concept of "programming" up till now has basically been "Hey let's slap some JavaScript onto a web page!"
I can assure you - there are many, many programmers who would never touch that world with a ten-foot pole.
They work for the Department of Defense, they work on Wall Street (on back-office systems - handling billions of dollars), they develop software running nuclear reactors or MRI machines - or they do research and development at academic institutions.
For many of these people (in the academic world), even a supposedly "well-defined" and "battle-tested" language like C/C++ is totally "beneath" them.
I have heard theoretical computer scientists, working on DARPA-funded language design projects, say that they wanted to avoid using C/C++ as an implementation language "because it lacks a clearly defined semantics." (These are academics who use things like functional languages, algebraic languages, etc. - which are often more "declarative" in nature, versus the "procedural" languages many casual programmers use).
There is a whole world of programming where not only "GOTO" is ridiculed - but even commonly used procedural constructs "for-loops" and "try/throw/catch" blocks for exceptions are also avoided.
Get serious or GTFO
The only acceptable, serious approach for doing stuff like "smart contracts" or the "The DAO" must be based on much more serious languages than this silly "Solidity" invented by some kid - eg, if we're going to start migrating contractual law onto machines, then the only languages we should be using must:
  • be "functional" (eg, from the family of Haskell/ML) - not procedural languages (eg, C/C++, Java, JavaScript, etc.)
  • support high-level, formal tools for program specification, derivation, and validation
As far as I'm concerned, if we want machines to run our contractual law and financial structures, then the minimal acceptable approach must be:
  • implementing in a functional language like Ocaml (used with great success by Jane Street, a Wall Street firm - check out their videos on YouTube)
  • and long-term, we should think about specifying using a language like Coq (a theorem prover which can be used to derive machine-runnable Ocaml programs/implementations from human-readable specifications).
Kids think the glass is half-full. Pros know it's half-empty.
Maybe all this sounds totally foreign and complicated to today's "scripting kiddies" - the kinds of people like Mark Karepelès who thought he could process hundreds of millions of dollars using that "fractal of bad design" known as PHP - and now Vitalik - who seems like a smart kid, but still, I wonder:
  • how much he's studied up on things like functional languages, or
  • if he's even heard of the Curry-Howard Isomophism, and understands how it can be applied to the problem of developing human-readable specifications (analogous to theorems), and deriving provably correct machine-runnable implementations/programs (analogous to proofs) from them
  • if he's heard of stuff like NATO's 1968 conference on the "software crisis" - which many believe is still not resolved
https://duckduckgo.com/?q=nato+1968+software+crisis&ia=web
https://en.wikipedia.org/wiki/Software_crisis
  • if he's aware of the "AI Winter" - the fact that most researchers consider Artificial Intelligence to be a failure
https://duckduckgo.com/?q=AI+winter&t=disconnect&ia=about
https://en.wikipedia.org/wiki/AI_winter
The above all reflect the fact that computer programming as practiced by most people in the industry today is actually a total fucking disaster.
"Lethal software" is a thing.
http://embeddedgurus.com/barr-code/2014/03/lethal-software-defects-patriot-missile-failure/
"Worse is better" is a (tongue-in-cheek) programming design philosophy.
https://duckduckgo.com/?q=%22worse+is+better%22&t=disconnect&ia=about
"Release early, release often" is an industry slogan - to get your "minimally viable" product out there, despite the fact that it isn't actually ready for prime time yet.
https://duckduckgo.com/?q=%22Release+early%2C+release+often%22&t=disconnect&ia=about
"Waterfall" and "agile" and "Xtreme" and countless other software development and management methodologies have been proposed, out of desperation, to deal with the fact that many programming projects, using popular "procedural" languages, fail.
https://duckduckgo.com/?q=waterfall+agile+xtreme&t=disconnect&ia=web
These methodologies do all work "more-or-less" - but note that they all rely heavily on stuff outside the code (mostly meetings, pep talks, quality assurance testing, etc.) - and they have been proposed out of a dire necessity - the fact that "the code itself" normally does not work right, without continual human prodding from managerial types.
We almost never trust "the code itself" to work properly. Because after a few decades of experience (using these crappy languages), we know that it almost never does.
More examples of failed projects and "lethal software"
  • The newly constructed Denver Airport was held up for years because the developers couldn't get the software right for the baggage handling system.
https://duckduckgo.com/?q=denver+airport+software+failure&t=disconnect&ia=web
  • In one of America's many recent wars (there's so many, I can't keep track of which one that was), over in the Mid-East, the defense systems used against SCUD missiles didn't work - due to software errors.
https://duckduckgo.com/?q=patriot+scud+missiles+software+failure&t=disconnect&ia=web
  • The Ariane rocket (a $7 billion project) blew up - causing $500 in damage.
https://duckduckgo.com/?q=ariane+software+failure&t=disconnect&ia=web
  • The Mars Climate Orbiter burned up in the Martial atmosphere - because the engineers screws up converting between metric and imperial. (By the way, type systems as used functional languages have ways of easily preventing this kind of problem - but in most procecural languages, it's much harder.)
https://duckduckgo.com/?q=mars+climate+orbiter+newtons+&t=disconnect&ia=about
  • The rollout of the healthcare.gov website for Obamacare was a disaster - but to be fair, that involved trying to get hundreds of different backends from all the private insurance companies to talk to each other, so maybe that was to be expected.
https://duckduckgo.com/?q=healthcare.gov+disastrous+rollout&t=disconnect&ia=web
Software development is a mess
The take-away is: software development is a mess - even when it's done by Wall Street or NASA or the Department of Defense, incorporating "functional" languages, or "formal methods" supporting an initial "specification" followed by a derived (and supposedly "provably correct") "implementation".
So... the lesson is... a newly-invented language like Solidity... which people thought was "cool" because it "looked like" JavaScript - is nowhere near the kind of rigorous, absolutely safe level required for handling a quarter of a billion dollars in people's actual wealth.
Vitalik seems like a great guy - but this whole area of "smart conctracts" and "distributed automous organizations" will have to attract many more serious heavyweights from industry and academia before it will be safe enough to run contractual law and financial structures controlling hundreds of millions of dollars in people's actual money and affecting people's actual lives.
Some random links
To give one tiny example (and I'm not saying that Ethereum or "The DAO" necessary has to use this sort of thing - I'm just curious as to what people's backgrounds might be) - does anyone involved with Ethereum or "The DAO" have a passing acquaintance (perhaps from years ago), with historical, related work like the following:
Composing contracts: an adventure in financial engineering - Simon Peyton Jones
http://research.microsoft.com/en-us/um/people/simonpj/Papers/financial-contracts/contracts-icfp.pdf
Caml Trading - Yaron Minsky
https://www.youtube.com/watch?v=hKcOkWzj0_s
Why OCaml - JaneStreet
https://www.youtube.com/watch?v=v1CmGbOGb2I
Just because you're storing stuff in a permissionless blockchain, does not mean you get to ignore all this historical, possibly related work.
In particular, you can go ahead and design a "smart contracts" language to run on you rdecentralized permissionless blockchain. But if your goal is that it should "look like JavaScript" (instead of "acting like Haskell or Ocaml") - then you're probably doing it wrong.
It's about language design
On a final note - it's not about "recursion" or "complexity" or even "avoiding Turing-completeness". Someday, we should be able to have all those things in our smart contracts and DAOs.
What it's really about is language design - including domain-specific languages (DSLs), ideally within a development ecosystem which includes both a high-level specification language, as well as a low-level (machine-runnable) implementation language - where a provably correct program/implementation is mechanistically derived from its specification.
(And by the way, this would have given us a high-level, formal, human-readable, and legally enforceable *specification of "The DAO" - instead of the informal, meaningless, irrelevant English-language "description" which so many suckers fell for - and which the hacker was able to totally ignore and override, when he took the time to read the only "spec" there was: the "implementation", which was in code whose semantics were obvious to almost nobody.)
Language design, formal methods, program derivation and verification, model theory - these are entire fields within theoretical computer science. Is there anyone involved in "smart contracts" and DAOs who knows about this kind of stuff? If so, I think the community would love to hear what they're doing.
Sorry to be "that guy" - but someone has to say it:
Smart contracts and DAOs are going to be a disaster - and cause yet more human suffering in this capitalist system - if we base them on JavaScript-like languages - instead of on state-of-the-art industrial-strength functional languages like Ocaml and Haskell and formally verifiable specification languages like Coq.
submitted by ydtm to btc [link] [comments]

Is anyone else freaked out by this whole blocksize debate? Does anyone else find themself often agreeing with *both* sides - depending on whichever argument you happen to be reading at the moment? And do we need some better algorithms and data structures?

Why do both sides of the debate seem “right” to me?
I know, I know, a healthy debate is healthy and all - and maybe I'm just not used to the tumult and jostling which would be inevitable in a real live open major debate about something as vital as Bitcoin.
And I really do agree with the starry-eyed idealists who say Bitcoin is vital. Imperfect as it may be, it certainly does seem to represent the first real chance we've had in the past few hundred years to try to steer our civilization and our planet away from the dead-ends and disasters which our government-issued debt-based currencies keep dragging us into.
But this particular debate, about the blocksize, doesn't seem to be getting resolved at all.
Pretty much every time I read one of the long-form major arguments contributed by Bitcoin "thinkers" who I've come to respect over the past few years, this weird thing happens: I usually end up finding myself nodding my head and agreeing with whatever particular piece I'm reading!
But that should be impossible - because a lot of these people vehemently disagree!
So how can both sides sound so convincing to me, simply depending on whichever piece I currently happen to be reading?
Does anyone else feel this way? Or am I just a gullible idiot?
Just Do It?
When you first look at it or hear about it, increasing the size seems almost like a no-brainer: The "big-block" supporters say just increase the blocksize to 20 MB or 8 MB, or do some kind of scheduled or calculated regular increment which tries to take into account the capabilities of the infrastructure and the needs of the users. We do have the bandwidth and the memory to at least increase the blocksize now, they say - and we're probably gonna continue to have more bandwidth and memory in order to be able to keep increasing the blocksize for another couple decades - pretty much like everything else computer-based we've seen over the years (some of this stuff is called by names such as "Moore's Law").
On the other hand, whenever the "small-block" supporters warn about the utter catastrophe that a failed hard-fork would mean, I get totally freaked by their possible doomsday scenarios, which seem totally plausible and terrifying - so I end up feeling that the only way I'd want to go with a hard-fork would be if there was some pre-agreed "triggering" mechanism where the fork itself would only actually "switch on" and take effect provided that some "supermajority" of the network (of who? the miners? the full nodes?) had signaled (presumably via some kind of totally reliable p2p trustless software-based voting system?) that they do indeed "pre-agree" to actually adopt the pre-scheduled fork (and thereby avoid any possibility whatsoever of the precious blockchain somehow tragically splitting into two and pretty much killing this cryptocurrency off in its infancy).
So in this "conservative" scenario, I'm talking about wanting at least 95% pre-adoption agreement - not the mere 75% which I recall some proposals call for, which seems like it could easily lead to a 75/25 blockchain split.
But this time, with this long drawn-out blocksize debate, the core devs, and several other important voices who have become prominent opinion shapers over the past few years, can't seem to come to any real agreement on this.
Weird split among the devs
As far as I can see, there's this weird split: Gavin and Mike seem to be the only people among the devs who really want a major blocksize increase - and all the other devs seem to be vehemently against them.
But then on the other hand, the users seem to be overwhelmingly in favor of a major increase.
And there are meta-questions about governance, about about why this didn't come out as a BIP, and what the availability of Bitcoin XT means.
And today or yesterday there was this really cool big-blockian exponential graph based on doubling the blocksize every two years for twenty years, reminding us of the pure mathematical fact that 210 is indeed about 1000 - but not really addressing any of the game-theoretic points raised by the small-blockians. So a lot of the users seem to like it, but when so few devs say anything positive about it, I worry: is this just yet more exponential chart porn?
On the one hand, Gavin's and Mike's blocksize increase proposal initially seemed like a no-brainer to me.
And on the other hand, all the other devs seem to be against them. Which is weird - not what I'd initially expected at all (but maybe I'm just a fool who's seduced by exponential chart porn?).
Look, I don't mean to be rude to any of the core devs, and I don't want to come off like someone wearing a tinfoil hat - but it has to cross people's minds that the powers that be (the Fed and the other central banks and the governments that use their debt-issued money to run this world into a ditch) could very well be much more scared shitless than they're letting on. If we assume that the powers that be are using their usual playbook and tactics, then it could be worth looking at the book "Confessions of an Economic Hitman" by John Perkins, to get an idea of how they might try to attack Bitcoin. So, what I'm saying is, they do have a track record of sending in "experts" to try to derail projects and keep everyone enslaved to the Creature from Jekyll Island. I'm just saying. So, without getting ad hominem - let's just make sure that our ideas can really stand scrutiny on their own - as Nick Szabo says, we need to make sure there is "more computer science, less noise" in this debate.
When Gavin Andresen first came out with the 20 MB thing - I sat back and tried to imagine if I could download 20 MB in 10 minutes (which seems to be one of the basic mathematical and technological constraints here - right?)
I figured, "Yeah, I could download that" - even with my crappy internet connection.
And I guess the telecoms might be nice enough to continue to double our bandwidth every two years for the next couple decades – if we ask them politely?
On the other hand - I think we should be careful about entrusting the financial freedom of the world into the greedy hands of the telecoms companies - given all their shady shenanigans over the past few years in many countries. After decades of the MPAA and the FBI trying to chip away at BitTorrent, lately PirateBay has been hard to access. I would say it's quite likely that certain persons at institutions like JPMorgan and Goldman Sachs and the Fed might be very, very motivated to see Bitcoin fail - so we shouldn't be too sure about scaling plans which depend on the willingness of companies Verizon and AT&T to double our bandwith every two years.
Maybe the real important hardware buildout challenge for a company like 21 (and its allies such as Qualcomm) to take on now would not be "a miner in every toaster" but rather "Google Fiber Download and Upload Speeds in every Country, including China".
I think I've read all the major stuff on the blocksize debate from Gavin Andresen, Mike Hearn, Greg Maxwell, Peter Todd, Adam Back, and Jeff Garzick and several other major contributors - and, oddly enough, all their arguments seem reasonable - heck even Luke-Jr seems reasonable to me on the blocksize debate, and I always thought he was a whackjob overly influenced by superstition and numerology - and now today I'm reading the article by Bram Cohen - the inventor of BitTorrent - and I find myself agreeing with him too!
I say to myself: What's going on with me? How can I possibly agree with all of these guys, if they all have such vehemently opposing viewpoints?
I mean, think back to the glory days of a couple of years ago, when all we were hearing was how this amazing unprecedented grassroots innovation called Bitcoin was going to benefit everyone from all walks of life, all around the world:
...basically the entire human race transacting everything into the blockchain.
(Although let me say that I think that people's focus on ideas like driverless cabs creating realtime fare markets based on supply and demand seems to be setting our sights a bit low as far as Bitcoin's abilities to correct the financial world's capital-misallocation problems which seem to have been made possible by infinite debt-based fiat. I would have hoped that a Bitcoin-based economy would solve much more noble, much more urgent capital-allocation problems than driverless taxicabs creating fare markets or refrigerators ordering milk on the internet of things. I was thinking more along the lines that Bitcoin would finally strangle dead-end debt-based deadly-toxic energy industries like fossil fuels and let profitable clean energy industries like Thorium LFTRs take over - but that's another topic. :=)
Paradoxes in the blocksize debate
Let me summarize the major paradoxes I see here:
(1) Regarding the people (the majority of the core devs) who are against a blocksize increase: Well, the small-blocks arguments do seem kinda weird, and certainly not very "populist", in the sense that: When on earth have end-users ever heard of a computer technology whose capacity didn't grow pretty much exponentially year-on-year? All the cool new technology we've had - from hard drives to RAM to bandwidth - started out pathetically tiny and grew to unimaginably huge over the past few decades - and all our software has in turn gotten massively powerful and big and complex (sometimes bloated) to take advantage of the enormous new capacity available.
But now suddenly, for the first time in the history of technology, we seem to have a majority of the devs, on a major p2p project - saying: "Let's not scale the system up. It could be dangerous. It might break the whole system (if the hard-fork fails)."
I don't know, maybe I'm missing something here, maybe someone else could enlighten me, but I don't think I've ever seen this sort of thing happen in the last few decades of the history of technology - devs arguing against scaling up p2p technology to take advantage of expected growth in infrastructure capacity.
(2) But... on the other hand... the dire warnings of the small-blockians about what could happen if a hard-fork were to fail - wow, they do seem really dire! And these guys are pretty much all heavyweight, experienced programmers and/or game theorists and/or p2p open-source project managers.
I must say, that nearly all of the long-form arguments I've read - as well as many, many of the shorter comments I've read from many users in the threads, whose names I at least have come to more-or-less recognize over the past few months and years on reddit and bitcointalk - have been amazingly impressive in their ability to analyze all aspects of the lifecycle and management of open-source software projects, bringing up lots of serious points which I could never have come up with, and which seem to come from long experience with programming and project management - as well as dealing with economics and human nature (eg, greed - the game-theory stuff).
So a lot of really smart and experienced people with major expertise in various areas ranging from programming to management to game theory to politics to economics have been making some serious, mature, compelling arguments.
But, as I've been saying, the only problem to me is: in many of these cases, these arguments are vehemently in opposition to each other! So I find myself agreeing with pretty much all of them, one by one - which means the end result is just a giant contradiction.
I mean, today we have Bram Cohen, the inventor of BitTorrent, arguing (quite cogently and convincingly to me), that it would be dangerous to increase the blocksize. And this seems to be a guy who would know a few things about scaling out a massive global p2p network - since the protocol which he invented, BitTorrent, is now apparently responsible for like a third of the traffic on the internet (and this despite the long-term concerted efforts of major evil players such as the MPAA and the FBI to shut the whole thing down).
Was the BitTorrent analogy too "glib"?
By the way - I would like to go on a slight tangent here and say that one of the main reasons why I felt so "comfortable" jumping on the Bitcoin train back a few years ago, when I first heard about it and got into it, was the whole rough analogy I saw with BitTorrent.
I remembered the perhaps paradoxical fact that when a torrent is more popular (eg, a major movie release that just came out last week), then it actually becomes faster to download. More people want it, so more people have a few pieces of it, so more people are able to get it from each other. A kind of self-correcting economic feedback loop, where more demand directly leads to more supply.
(BitTorrent manages to pull this off by essentially adding a certain structure to the file being shared, so that it's not simply like an append-only list of 1 MB blocks, but rather more like an random-access or indexed array of 1 MB chunks. Say you're downloading a film which is 700 MB. As soon as your "client" program has downloaded a single 1-MB chunk - say chunk #99 - your "client" program instantly turns into a "server" program as well - offering that chunk #99 to other clients. From my simplistic understanding, I believe the Bitcoin protocol does something similar, to provide a p2p architecture. Hence my - perhaps naïve - assumption that Bitcoin already had the right algorithms / architecture / data structure to scale.)
The efficiency of the BitTorrent network seemed to jive with that "network law" (Metcalfe's Law?) about fax machines. This law states that the more fax machines there are, the more valuable the network of fax machines becomes. Or the value of the network grows on the order of the square of the number of nodes.
This is in contrast with other technology like cars, where the more you have, the worse things get. The more cars there are, the more traffic jams you have, so things start going downhill. I guess this is because highway space is limited - after all, we can't pave over the entire countryside, and we never did get those flying cars we were promised, as David Graeber laments in a recent essay in The Baffler magazine :-)
And regarding the "stress test" supposedly happening right now in the middle of this ongoing blocksize debate, I don't know what worries me more: the fact that it apparently is taking only $5,000 to do a simple kind of DoS on the blockchain - or the fact that there are a few rumors swirling around saying that the unknown company doing the stress test shares the same physical mailing address with a "scam" company?
Or maybe we should just be worried that so much of this debate is happening on a handful of forums which are controlled by some guy named theymos who's already engaged in some pretty "contentious" or "controversial" behavior like blowing a million dollars on writing forum software (I guess he never heard that reddit.com software is open-source)?
So I worry that the great promise of "decentralization" might be more fragile than we originally thought.
Scaling
Anyways, back to Metcalfe's Law: with virtual stuff, like torrents and fax machines, the more the merrier. The more people downloading a given movie, the faster it arrives - and the more people own fax machines, the more valuable the overall fax network.
So I kindof (naïvely?) assumed that Bitcoin, being "virtual" and p2p, would somehow scale up the same magical way BitTorrrent did. I just figured that more people using it would somehow automatically make it stronger and faster.
But now a lot of devs have started talking in terms of the old "scarcity" paradigm, talking about blockspace being a "scarce resource" and talking about "fee markets" - which seems kinda scary, and antithetical to much of the earlier rhetoric we heard about Bitcoin (the stuff about supporting our favorite creators with micropayments, and the stuff about Africans using SMS to send around payments).
Look, when some asshole is in line in front of you at the cash register and he's holding up the line so they can run his credit card to buy a bag of Cheeto's, we tend to get pissed off at the guy - clogging up our expensive global electronic payment infrastructure to make a two-dollar purchase. And that's on a fairly efficient centralized system - and presumably after a year or so, VISA and the guy's bank can delete or compress the transaction in their SQL databases.
Now, correct me if I'm wrong, but if some guy buys a coffee on the blockchain, or if somebody pays an online artist $1.99 for their work - then that transaction, a few bytes or so, has to live on the blockchain forever?
Or is there some "pruning" thing that gets rid of it after a while?
And this could lead to another question: Viewed from the perspective of double-entry bookkeeping, is the blockchain "world-wide ledger" more like the "balance sheet" part of accounting, i.e. a snapshot showing current assets and liabilities? Or is it more like the "cash flow" part of accounting, i.e. a journal showing historical revenues and expenses?
When I think of thousands of machines around the globe having to lug around multiple identical copies of a multi-gigabyte file containing some asshole's coffee purchase forever and ever... I feel like I'm ideologically drifting in one direction (where I'd end up also being against really cool stuff like online micropayments and Africans banking via SMS)... so I don't want to go there.
But on the other hand, when really experienced and battle-tested veterans with major experience in the world of open-souce programming and project management (the "small-blockians") warn of the catastrophic consequences of a possible failed hard-fork, I get freaked out and I wonder if Bitcoin really was destined to be a settlement layer for big transactions.
Could the original programmer(s) possibly weigh in?
And I don't mean to appeal to authority - but heck, where the hell is Satoshi Nakamoto in all this? I do understand that he/she/they would want to maintain absolute anonymity - but on the other hand, I assume SN wants Bitcoin to succeed (both for the future of humanity - or at least for all the bitcoins SN allegedly holds :-) - and I understand there is a way that SN can cryptographically sign a message - and I understand that as the original developer of Bitcoin, SN had some very specific opinions about the blocksize... So I'm kinda wondering of Satoshi could weigh in from time to time. Just to help out a bit. I'm not saying "Show us a sign" like a deity or something - but damn it sure would be fascinating and possibly very helpful if Satoshi gave us his/hetheir 2 satoshis worth at this really confusing juncture.
Are we using our capacity wisely?
I'm not a programming or game-theory whiz, I'm just a casual user who has tried to keep up with technology over the years.
It just seems weird to me that here we have this massive supercomputer (500 times more powerful than the all the supercomputers in the world combined) doing fairly straightforward "embarassingly parallel" number-crunching operations to secure a p2p world-wide ledger called the blockchain to keep track of a measly 2.1 quadrillion tokens spread out among a few billion addresses - and a couple of years ago you had people like Rick Falkvinge saying the blockchain would someday be supporting multi-million-dollar letters of credit for international trade and you had people like Andreas Antonopoulos saying the blockchain would someday allow billions of "unbanked" people to send remittances around the village or around the world dirt-cheap - and now suddenly in June 2015 we're talking about blockspace as a "scarce resource" and talking about "fee markets" and partially centralized, corporate-sponsored "Level 2" vaporware like Lightning Network and some mysterious company is "stess testing" or "DoS-ing" the system by throwing away a measly $5,000 and suddenly it sounds like the whole system could eventually head right back into PayPal and Western Union territory again, in terms of expensive fees.
When I got into Bitcoin, I really was heavily influenced by vague analogies with BitTorrent: I figured everyone would just have tiny little like utorrent-type program running on their machine (ie, Bitcoin-QT or Armory or Mycelium etc.).
I figured that just like anyone can host a their own blog or webserver, anyone would be able to host their own bank.
Yeah, Google and and Mozilla and Twitter and Facebook and WhatsApp did come along and build stuff on top of TCP/IP, so I did expect a bunch of companies to build layers on top of the Bitcoin protocol as well. But I still figured the basic unit of bitcoin client software powering the overall system would be small and personal and affordable and p2p - like a bittorrent client - or at the most, like a cheap server hosting a blog or email server.
And I figured there would be a way at the software level, at the architecture level, at the algorithmic level, at the data structure level - to let the thing scale - if not infinitely, at least fairly massively and gracefully - the same way the BitTorrent network has.
Of course, I do also understand that with BitTorrent, you're sharing a read-only object (eg, a movie) - whereas with Bitcoin, you're achieving distributed trustless consensus and appending it to a write-only (or append-only) database.
So I do understand that the problem which BitTorrent solves is much simpler than the problem which Bitcoin sets out to solve.
But still, it seems that there's got to be a way to make this thing scale. It's p2p and it's got 500 times more computing power than all the supercomputers in the world combined - and so many brilliant and motivated and inspired people want this thing to succeed! And Bitcoin could be our civilization's last chance to steer away from the oncoming debt-based ditch of disaster we seem to be driving into!
It just seems that Bitcoin has got to be able to scale somehow - and all these smart people working together should be able to come up with a solution which pretty much everyone can agree - in advance - will work.
Right? Right?
A (probably irrelevant) tangent on algorithms and architecture and data structures
I'll finally weigh with my personal perspective - although I might be biased due to my background (which is more on the theoretical side of computer science).
My own modest - or perhaps radical - suggestion would be to ask whether we're really looking at all the best possible algorithms and architectures and data structures out there.
From this perspective, I sometimes worry that the overwhelming majority of the great minds working on the programming and game-theory stuff might come from a rather specific, shall we say "von Neumann" or "procedural" or "imperative" school of programming (ie, C and Python and Java programmers).
It seems strange to me that such a cutting-edge and important computer project would have so little participation from the great minds at the other end of the spectrum of programming paradigms - namely, the "functional" and "declarative" and "algebraic" (and co-algebraic!) worlds.
For example, I was struck in particular by statements I've seen here and there (which seemed rather hubristic or lackadaisical to me - for something as important as Bitcoin), that the specification of Bitcoin and the blockchain doesn't really exist in any form other than the reference implementation(s) (in procedural languages such as C or Python?).
Curry-Howard anyone?
I mean, many computer scientists are aware of the Curry-Howard isomorophism, which basically says that the relationship between a theorem and its proof is equivalent to the relationship between a specification and its implementation. In other words, there is a long tradition in mathematics (and in computer programming) of:
And it's not exactly "turtles all the way down" either: a specification is generally simple and compact enough that a good programmer can usually simply visually inspect it to determine if it is indeed "correct" - something which is very difficult, if not impossible, to do with a program written in a procedural, implementation-oriented language such as C or Python or Java.
So I worry that we've got this tradition, from the open-source github C/Java programming tradition, of never actually writing our "specification", and only writing the "implementation". In mission-critical military-grade programming projects (which often use languages like Ada or Maude) this is simply not allowed. It would seem that a project as mission-critical as Bitcoin - which could literally be crucial for humanity's continued survival - should also use this kind of military-grade software development approach.
And I'm not saying rewrite the implementations in these kind of theoretical languages. But it might be helpful if the C/Python/Java programmers in the Bitcoin imperative programming world could build some bridges to the Maude/Haskell/ML programmers of the functional and algebraic programming worlds to see if any kind of useful cross-pollination might take place - between specifications and implementations.
For example, the JavaFAN formal analyzer for multi-threaded Java programs (developed using tools based on the Maude language) was applied to the Remote Agent AI program aboard NASA's Deep Space 1 shuttle, written in Java - and it took only a few minutes using formal mathematical reasoning to detect a potential deadlock which would have occurred years later during the space mission when the damn spacecraft was already way out around Pluto.
And "the Maude-NRL (Naval Research Laboratory) Protocol Analyzer (Maude-NPA) is a tool used to provide security proofs of cryptographic protocols and to search for protocol flaws and cryptosystem attacks."
These are open-source formal reasoning tools developed by DARPA and used by NASA and the US Navy to ensure that program implementations satisfy their specifications. It would be great if some of the people involved in these kinds of projects could contribute to help ensure the security and scalability of Bitcoin.
But there is a wide abyss between the kinds of programmers who use languages like Maude and the kinds of programmers who use languages like C/Python/Java - and it can be really hard to get the two worlds to meet. There is a bit of rapprochement between these language communities in languages which might be considered as being somewhere in the middle, such as Haskell and ML. I just worry that Bitcoin might be turning into being an exclusively C/Python/Java project (with the algorithms and practitioners traditionally of that community), when it could be more advantageous if it also had some people from the functional and algebraic-specification and program-verification community involved as well. The thing is, though: the theoretical practitioners are big on "semantics" - I've heard them say stuff like "Yes but a C / C++ program has no easily identifiable semantics". So to get them involved, you really have to first be able to talk about what your program does (specification) - before proceeding to describe how it does it (implementation). And writing high-level specifications is typically very hard using the syntax and semantics of languages like C and Java and Python - whereas specs are fairly easy to write in Maude - and not only that, they're executable, and you state and verify properties about them - which provides for the kind of debate Nick Szabo was advocating ("more computer science, less noise").
Imagine if we had an executable algebraic specification of Bitcoin in Maude, where we could formally reason about and verify certain crucial game-theoretical properties - rather than merely hand-waving and arguing and deploying and praying.
And so in the theoretical programming community you've got major research on various logics such as Girard's Linear Logic (which is resource-conscious) and Bruni and Montanari's Tile Logic (which enables "pasting" bigger systems together from smaller ones in space and time), and executable algebraic specification languages such as Meseguer's Maude (which would be perfect for game theory modeling, with its functional modules for specifying the deterministic parts of systems and its system modules for specifiying non-deterministic parts of systems, and its parameterized skeletons for sketching out the typical architectures of mobile systems, and its formal reasoning and verification tools and libraries which have been specifically applied to testing and breaking - and fixing - cryptographic protocols).
And somewhat closer to the practical hands-on world, you've got stuff like Google's MapReduce and lots of Big Data database languages developed by Google as well. And yet here we are with a mempool growing dangerously big for RAM on a single machine, and a 20-GB append-only list as our database - and not much debate on practical results from Google's Big Data databases.
(And by the way: maybe I'm totally ignorant for asking this, but I'll ask anyways: why the hell does the mempool have to stay in RAM? Couldn't it work just as well if it were stored temporarily on the hard drive?)
And you've got CalvinDB out of Yale which apparently provides an ACID layer on top of a massively distributed database.
Look, I'm just an armchair follower cheering on these projects. I can barely manage to write a query in SQL, or read through a C or Python or Java program. But I would argue two points here: (1) these languages may be too low-level and "non-formal" for writing and modeling and formally reasoning about and proving properties of mission-critical specifications - and (2) there seem to be some Big Data tools already deployed by institutions such as Google and Yale which support global petabyte-size databases on commodity boxes with nice properties such as near-real-time and ACID - and I sometimes worry that the "core devs" might be failing to review the literature (and reach out to fellow programmers) out there to see if there might be some formal program-verification and practical Big Data tools out there which could be applied to coming up with rock-solid, 100% consensus proposals to handle an issue such as blocksize scaling, which seems to have become much more intractable than many people might have expected.
I mean, the protocol solved the hard stuff: the elliptical-curve stuff and the Byzantine General stuff. How the heck can we be falling down on the comparatively "easier" stuff - like scaling the blocksize?
It just seems like defeatism to say "Well, the blockchain is already 20-30 GB and it's gonna be 20-30 TB ten years from now - and we need 10 Mbs bandwidth now and 10,000 Mbs bandwidth 20 years from - assuming the evil Verizon and AT&T actually give us that - so let's just become a settlement platform and give up on buying coffee or banking the unbanked or doing micropayments, and let's push all that stuff into some corporate-controlled vaporware without even a whitepaper yet."
So you've got Peter Todd doing some possibly brilliant theorizing and extrapolating on the idea of "treechains" - there is a Let's Talk Bitcoin podcast from about a year ago where he sketches the rough outlines of this idea out in a very inspiring, high-level way - although the specifics have yet to be hammered out. And we've got Blockstream also doing some hopeful hand-waving about the Lightning Network.
Things like Peter Todd's treechains - which may be similar to the spark in some devs' eyes called Lightning Network - are examples of the kind of algorithm or architecture which might manage to harness the massive computing power of miners and nodes in such a way that certain kinds of massive and graceful scaling become possible.
It just seems like a kindof tiny dev community working on this stuff.
Being a C or Python or Java programmer should not be a pre-req to being able to help contribute to the specification (and formal reasoning and program verification) for Bitcoin and the blockchain.
XML and UML are crap modeling and specification languages, and C and Java and Python are even worse (as specification languages - although as implementation languages, they are of course fine).
But there are serious modeling and specification languages out there, and they could be very helpful at times like this - where what we're dealing with is questions of modeling and specification (ie, "needs and requirements").
One just doesn't often see the practical, hands-on world of open-source github implementation-level programmers and the academic, theoretical world of specification-level programmers meeting very often. I wish there were some way to get these two worlds to collaborate on Bitcoin.
Maybe a good first step to reach out to the theoretical people would be to provide a modular executable algebraic specification of the Bitcoin protocol in a recognized, military/NASA-grade specification language such as Maude - because that's something the theoretical community can actually wrap their heads around, whereas it's very hard to get them to pay attention to something written only as a C / Python / Java implementation (without an accompanying specification in a formal language).
They can't check whether the program does what it's supposed to do - if you don't provide a formal mathematical definition of what the program is supposed to do.
Specification : Implementation :: Theorem : Proof
You have to remember: the theoretical community is very aware of the Curry-Howard isomorphism. Just like it would be hard to get a mathematician's attention by merely showing them a proof without telling also telling them what theorem the proof is proving - by the same token, it's hard to get the attention of a theoretical computer scientist by merely showing them an implementation without showing them the specification that it implements.
Bitcoin is currently confronted with a mathematical or "computer science" problem: how to secure the network while getting high enough transactional throughput, while staying within the limited RAM, bandwidth and hard drive space limitations of current and future infrastructure.
The problem only becomes a political and economic problem if we give up on trying to solve it as a mathematical and "theoretical computer science" problem.
There should be a plethora of whitepapers out now proposing algorithmic solutions to these scaling issues. Remember, all we have to do is apply the Byzantine General consensus-reaching procedure to a worldwide database which shuffles 2.1 quadrillion tokens among a few billion addresses. The 21 company has emphatically pointed out that racing to compute a hash to add a block is an "embarrassingly parallel" problem - very easy to decompose among cheap, fault-prone, commodity boxes, and recompose into an overall solution - along the lines of Google's highly successful MapReduce.
I guess what I'm really saying is (and I don't mean to be rude here), is that C and Python and Java programmers might not be the best qualified people to develop and formally prove the correctness of (note I do not say: "test", I say "formally prove the correctness of") these kinds of algorithms.
I really believe in the importance of getting the algorithms and architectures right - look at Google Search itself, it uses some pretty brilliant algorithms and architectures (eg, MapReduce, Paxos) which enable it to achieve amazing performance - on pretty crappy commodity hardware. And look at BitTorrent, which is truly p2p, where more demand leads to more supply.
So, in this vein, I will close this lengthy rant with an oddly specific link - which may or may not be able to make some interesting contributions to finding suitable algorithms, architectures and data structures which might help Bitcoin scale massively. I have no idea if this link could be helpful - but given the near-total lack of people from the Haskell and ML and functional worlds in these Bitcoin specification debates, I thought I'd be remiss if I didn't throw this out - just in case there might be something here which could help us channel the massive computing power of the Bitcoin network in such a way as to enable us simply sidestep this kind of desperate debate where both sides seem right because the other side seems wrong.
https://personal.cis.strath.ac.uk/neil.ghani/papers/ghani-calco07
The above paper is about "higher dimensional trees". It uses a bit of category theory (not a whole lot) and a bit of Haskell (again not a lot - just a simple data structure called a Rose tree, which has a wikipedia page) to develop a very expressive and efficient data structure which generalizes from lists to trees to higher dimensions.
I have no idea if this kind of data structure could be applicable to the current scaling mess we apparently are getting bogged down in - I don't have the game-theory skills to figure it out.
I just thought that since the blockchain is like a list, and since there are some tree-like structures which have been grafted on for efficiency (eg Merkle trees) and since many of the futuristic scaling proposals seem to also involve generalizing from list-like structures (eg, the blockchain) to tree-like structures (eg, side-chains and tree-chains)... well, who knows, there might be some nugget of algorithmic or architectural or data-structure inspiration there.
So... TL;DR:
(1) I'm freaked out that this blocksize debate has splintered the community so badly and dragged on so long, with no resolution in sight, and both sides seeming so right (because the other side seems so wrong).
(2) I think Bitcoin could gain immensely by using high-level formal, algebraic and co-algebraic program specification and verification languages (such as Maude including Maude-NPA, Mobile Maude parameterized skeletons, etc.) to specify (and possibly also, to some degree, verify) what Bitcoin does - before translating to low-level implementation languages such as C and Python and Java saying how Bitcoin does it. This would help to communicate and reason about programs with much more mathematical certitude - and possibly obviate the need for many political and economic tradeoffs which currently seem dismally inevitable - and possibly widen the collaboration on this project.
(3) I wonder if there are some Big Data approaches out there (eg, along the lines of Google's MapReduce and BigTable, or Yale's CalvinDB), which could be implemented to allow Bitcoin to scale massively and painlessly - and to satisfy all stakeholders, ranging from millionaires to micropayments, coffee drinkers to the great "unbanked".
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Bitcoin 6/9 - Protokół Bitcoin - Proof of work - YouTube How Bitcoin Works - Computerphile - YouTube Algebra - Ch. 9: Solving Word Problems with Factoring (6 of 17) Example 6 Bitcoin and cryptocurrency mining explained - YouTube

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Bitcoin 6/9 - Protokół "proof of work"

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