This document discusses the promise and potential of blockchain technology. It begins with an overview of blockchain components like distributed databases, peer-to-peer networks, and cryptographic hashing. It then discusses how blockchain could transform transactions by embedding smart contracts in digital code stored transparently on shared databases. Blockchain may affect any type of transaction between individuals, organizations, and algorithms. The document compares blockchain to TCP/IP and how it drove innovation on the internet over decades. It outlines potential applications and provides examples of companies already experimenting in areas like asset tracking, identity, and IoT.
2. AGENDA
Background for Blockchain discussion
Technical components
Traits / Limitations
The Promise
Innovation
A parallel - TCP/IP story
Trajectory, examples & next steps
3. ROLE OF INSTITUTIONS TODAY ?
Douglass C. North awarded Nobel Prize in Economics 1993 …… among other things ….. “
Institutions, Institutional change and Economic Performance ”
Ascent of money – Niall Ferguson
Contracts ………….. Legal organizations
Transactions ……… Accounting discipline
Records …………….. Business Operations
• Asset protection, organizational boundaries, verify identities, chronicle events
• Govern interactions b/w nations, communities, organizations and individuals
4. BUSINESS EVOLUTION ON
THE INTERNET
Moving from Internet of information to internet of value (money
of things)
• Web 1.0 – Read only of static web pages
• Web 2.0 – Dynamic user-generated content and rise of social media
• Web 3.0 – most popular definition – connective intelligence where
people, data, applications and content are connected by an
unmediated fabric not needing trust brokers (like banks) to ensure privacy
and security
5. INSTITUTIONAL EVOLUTION
Person to Person transactions (Barter)
Centralized institutions (Banks)
Decentralized transactions (Bitcoins) –
• Our interest is in Blockchain – the mechanism driving Bitcoins
• Central banks manipulate interest rates and money supply!
6. BLOCKCHAIN COMPONENTS
Distributed database
• Accessible by every participant
• No single party (node) controls the data or info
• A transaction one registered cannot be altered (incorporates cryptography)
Peer to peer network
• Communication occurs between peers and not some central node
• Every user is anonymous
Ledger – Registry of transactions
• Can be programmed to trigger transactions automatically
7. BLOCKS, CHAINS AND NODES
10 mins 10 mins 10 mins
Time
Node Node
NodeEvery Node gets an
identical copy of the
transaction registry
9. PROOF OF WORK
Performed by “miners” on nodes
Solve math problems requiring massive compute resources + electricity
Prove the new block of transactions are bona fide
Consensus by other miners to add the new block to the chain
Winning miners get compensated – by the system and by the payer
What happens when ALL 21,000,000 BTC are in circulation ? Higher transaction
fees ?
Is this a deflationary currency ?
10. ABOUT MESSAGES, HASHES &
NONCE
https://www.md5hashgenerator.com/
Everyone must remit $50 for Harvey victims (signed Rajiv Donde)
Challenge: 9690c3fd5766e6b358d2932ab91215b1
Solution hash must begin with 815d………..
815d8e1b5ae878790e12b1baf985a7c2
Hard to solve, easy to verify !
11. RULES OF CRYPTOGRAPHY
Computationally efficient
Same string input must produce the same hash
Must hide information about the inputs
Output must appear random and unrelated to the input
Two separate strings cannot produce the same hash (very low
probability)
12. SMART CONTRACTS
Smart Contracts Are programs that run on the blockchain
IFTTT (If this then that logic) – triggers when a condition is met e.g.
release funds to a vendor
Often called self extracting contracts – they guarantee the business
logic – since the code runs automatically
Concepts to be aware of (connected smart contracts):
• DAO : Decentralized autonomous Organizations
• DAC : Decentralized autonomous corporations
13. BLOCKCHAIN TRAITS
Permission-less (in the sense of Wikipedia)
Transparent (visible to all participants)
Immutable (cannot be changed – like trying to change history)
Secure (cryptography included)
No single point of failure
14. LIMITATIONS TODAY
Dependent on Proof-of-work (POW)
• Bitcoin: Miners have to solve complex math problems for the right to
write the next block and are incentivized to do this – example paid in
bitcoins. The winning node must get 51% consensus
• Requires power + energy + cost
Ethereum use Proof-of-stake idea
• Put down non-revocable deposit for the right to write the next block
Economic, legal, regulatory (by state) & technological (lack of
standards) hurdles
15. PROMISE OF BLOCKCHAIN
Contracts will be embedded in digital code
• Stored in transparent shared databases
• Protected from deletion / alteration
Scope:
• Every – process, task, agreement, payment
• Accompanied by digital record & identifiable signature
• That could be identified, stored, shared & validated
Individuals, organizations, machines and algorithms would freely transact
16. PROMISE OF BLOCKCHAIN
What Process Scope Actor Scope
Contracts embedded
in code and stored in
transparent & shared
databases free from
revision, deletion and
tampering
Every process, task,
agreement & payment
digitally recorded &
signed stored and
available for sharing
and validation
Individuals,
communities,
organizations &
algorithms
Blockchain has the potential to affect every type of transaction between any type of entity
we do today through intermediaries
17. TECHNOLOGY STACK
Distributed Apps (dApps)
Social Asset Tracking Reputation Identity
Smart Contracts (Templating)
Storage & Content (Storage & Content)
Blockchain (Open source protocol – like TCP/IP for the internet)
18. TYPE OF INNOVATION ?
Disruptive? Changing a business model?
Incremental? Meeting needs of existing customers?
Foundational? If so – it will evolve
19. TCP/IP DROVE THE INTERNET
First used in 1972 – email
Late 80s and 90s SUN, NeXT, HP like firms created local networks
Public use with WWW (Netscape commercial browser) led to content expansion from
Infoseek, Yahoo, etc
Rajiv startup – AnyTime Access 1996 (internet based lending)
25-30 year adoption cycle
Next wave brought substitution – using low cost connectivity to create new services –
CNET news online, Amazon books
Next came transformation – change in the way businesses created and captured value. Think
Peer-to-peer architecture by eBay, Google and Skype
20. POSSIBLE EVOLUTION OF
BLOCKCHAIN*
1. Single use
• Bitcoin
2. Localization
• Private online ledgers to process financial transactions
3. Substitution
• Retailer gift cards based on Blockchain
4. Transformation
• Self executing smart contracts
* Marco Lansiti, Karim Lakhani – HBS Jan 2017
21. BANKING INDUSTRY - EXAMPLE
Regulators: FDIC, NCUA, OCC, State agencies
Deposit Insurance: FDIC, NCUA
Exam council: FFIEC, NCUA
Regulations tracking Assets: SEC, CC, CFPB
22. WHAT SHOULD YOU DO NOW?
Experimentation !
Products from Microsoft : Coco framework
Amazon
Blockchain as a service!
23. APPLICATIONS
Asset Tracking
• Provenance, Product, Certifications
Identity or Reputation
• Individual or object
• Needs to be verified once (FB does not verify id)
• Need to know your customer scenarios
IoT (Internet of Things)
• Smart objects and devices will have the ability to pay with their own wallets
• Supply chain components can make their own purchases
• Real time data sensors and connected objects
Cryptocurrencies – solves the double spend problem
24. REAL COMPANIES AT WORK !
Blockchain based fraud detection system for valuable physical assets
• Everledger takes an image – like a unique diamond fingerprint which can
be scanned against the blockchain to verify it’s the same
• Imogen Heap – allows musicians to share free-trade music and to ensure
the profits go back to the artists
• Mycelia – DRM – smart contracts in digital music files will allow
musicians to sell directly to the consumer without the need for labels,
lawyers, accountants and automatic payment of royalties
• Amazon Dash buttons (IoT)
• Symbiont (based in Delaware) – completely automates stock issuance
from incorporation to IPO
25. PROJECTS IN THE WORKS
Hyperledger
• Open source initiative – enterprise grade distributed ledger and code
base to be used across industries
• Overseen by Linux Foundation
• Members include : Cisco, IBM, Intel,, Red Hat, Samsung, VMWare,
big banks (JP Morgan Chase, Wells Fargo …