The workshop will cover topics related to blockchain technologies including blockchain protocols, consensus mechanisms, Ethereum and smart contracts, and real-world enterprise applications of blockchain. It will also discuss challenges and limitations of blockchain. The goal is to educate participants about blockchain and prepare them for careers in the emerging blockchain field.
The Bitcoin fever is spreading much faster than it was anticipated. It has grabbed the attention of speculators, investors, bankers and regulators around the world.
This reminds us of a popular quote âThe more things are forbidden, the more popular they becomeâ- Mark Twain.
In this lesson, we make an attempt to demystify the term âBitcoinâ.
Content that helps to understand bitcoin and blockchain. Starts with currency basics, to clear the fact that bitcoin is not doing anything tangentially wrong. Followed by that bitcoin is covered and blockchain in detail.
Bitcoin is a digital, decentralized, partially anonymous currency, not backed by any government or other legal entity, and not redeemable for gold or other commodity. It relies on peer-to-peer networking and cryptography to maintain its integrity. A purely peer-to-peer version of electronic cash would allow online payments to be sent directly from one party to another without going through a financial institution. Digital signatures provide part of the solution, but the main benefits are lost if a trusted third party is still required to prevent double-spending.
The Bitcoin fever is spreading much faster than it was anticipated. It has grabbed the attention of speculators, investors, bankers and regulators around the world.
This reminds us of a popular quote âThe more things are forbidden, the more popular they becomeâ- Mark Twain.
In this lesson, we make an attempt to demystify the term âBitcoinâ.
Content that helps to understand bitcoin and blockchain. Starts with currency basics, to clear the fact that bitcoin is not doing anything tangentially wrong. Followed by that bitcoin is covered and blockchain in detail.
Bitcoin is a digital, decentralized, partially anonymous currency, not backed by any government or other legal entity, and not redeemable for gold or other commodity. It relies on peer-to-peer networking and cryptography to maintain its integrity. A purely peer-to-peer version of electronic cash would allow online payments to be sent directly from one party to another without going through a financial institution. Digital signatures provide part of the solution, but the main benefits are lost if a trusted third party is still required to prevent double-spending.
Introduction to Bit Coin Model describing the key underlying technological features, operational details, uses and applications. Implications for Mobile Operators.
This seminar discus about BITCOIN TECHNOLOGY. its EVOlUTION,TERMS USED IN BITCOIN,MINING,AQUIRING, BITCOIN, HOW TO STORE BITCOINS, TYPES OF WALLET, HOW BITCOIN ACTUALLY WORKS, TRANSACTION .
All you ever needed to know on bitcoin and blockchainMarco Hauff
Â
Basic introduction into the world of Bitcoin and Blockchain. Handy for everyone that needs to attend a birthday party and wants to join a conversation on this topic. A must for the financial / technology professional.
The five-year-old digital currency is increasingly being adopted by brick-and mortar businesses and professionals alike. Companies like bakeries, pet boutiques, wine stores, car dealers, florists, boutiques and professionals including dentists and other medical professionals, technical experts and more are using it like cash. In this program, Chris discusses about his experience using Bitcoin in his business, how it has grown exponentially and continues to grow, how small businesses and individuals can use it in there business to increase revenue, drive ecommerce and grow your bottom line. In this session Chris will discuss what Bitcoin is and answer the following questions:
⢠Why does Bitcoin matter? And why now?
⢠How do you get started?
⢠Where did Bitcoin come from?
⢠How does Bitcoin work?
⢠What does Bitcoin mean for the future of the Internet?
and much more!
A short 101 on blockchain and cryptocurrencies - What is blockchain? How to get started investing in crypto? Tactical tips for keeping your investment secure. Presentation for Blockchain & Cryptocurrency Meetup at WeWork San Francisco, Oct 23 2017.
Introduction to Bit Coin Model describing the key underlying technological features, operational details, uses and applications. Implications for Mobile Operators.
This seminar discus about BITCOIN TECHNOLOGY. its EVOlUTION,TERMS USED IN BITCOIN,MINING,AQUIRING, BITCOIN, HOW TO STORE BITCOINS, TYPES OF WALLET, HOW BITCOIN ACTUALLY WORKS, TRANSACTION .
All you ever needed to know on bitcoin and blockchainMarco Hauff
Â
Basic introduction into the world of Bitcoin and Blockchain. Handy for everyone that needs to attend a birthday party and wants to join a conversation on this topic. A must for the financial / technology professional.
The five-year-old digital currency is increasingly being adopted by brick-and mortar businesses and professionals alike. Companies like bakeries, pet boutiques, wine stores, car dealers, florists, boutiques and professionals including dentists and other medical professionals, technical experts and more are using it like cash. In this program, Chris discusses about his experience using Bitcoin in his business, how it has grown exponentially and continues to grow, how small businesses and individuals can use it in there business to increase revenue, drive ecommerce and grow your bottom line. In this session Chris will discuss what Bitcoin is and answer the following questions:
⢠Why does Bitcoin matter? And why now?
⢠How do you get started?
⢠Where did Bitcoin come from?
⢠How does Bitcoin work?
⢠What does Bitcoin mean for the future of the Internet?
and much more!
A short 101 on blockchain and cryptocurrencies - What is blockchain? How to get started investing in crypto? Tactical tips for keeping your investment secure. Presentation for Blockchain & Cryptocurrency Meetup at WeWork San Francisco, Oct 23 2017.
An overview of blockchain, cryptocurrencies, Bitcoin, Ethereum, ICOs. Meant to be introductory level but provide a slightly higher level of detail. Includes some companies to watch in the blockchain space. Prepared before the August 1 fork, which did occur.
Cryptocurrencies: The Mechanics Economic and FinanceErnie Teo
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Presented at the INAUGURAL CAIA-SKBI CRYPTOCURRENCY CONFERENCE 2014 on 04 November 2014 held at the Singapore Management University
This talk gives a general overview of Bitcoin and other cryptocurrencies.
Blockchain is one of the most important technical invention in the recent years. Blockchain is a transparent money exchange system that has transformed the way a business is conducted. Companies and tech giants have started investing significantly in the blockchain market and it is expected to be net worth of more than 3 trillion dollars in next 5 years. It has become growing popular because of its irrefutable security and ability to provide complete solution to digital identity issues. It is a digital ledger in a peer to peer network. This presentation provides a background on Blockchain technology, history, itâs architecture, how it works, advantages and disadvantages and its application in different industries.
Bitcoin is a cryptocurrency. It is a decentralized payment system and kept alive due to the technology called Blockchain. These are peer-to-peer transactions. These transactions are verified by using a cryptography technology bank. Chain technology keeps the record of the distributed ledger. Bitcoins can be earned as a reward through mining. This currency can be convertible into other currencies, products, and services. Bitcoin has been emerging as a famous digital currency and popularity all over for quick transition. Moreover, bitcoin will be an economic asset because it has profitable results. The purpose of this research study is to explain the complete working of bitcoins technology, applications, and research challenges to be addressed, and the current future international market scope of Bitcoin technology.
Bitcoin was proposed by Satoshi Nakamoto on 31st Oct 2008. It is the pseudonym used by an individual or a collective group of people. In January 2009, the First open-source Bitcoin client was released and the bitcoin network came into existence. Satoshi Nakamoto is an inventor of bitcoin, and blockchain technology. All through itâs a false name. This is how he introduced himself to the internet. Unfortunately, many people think that because Satoshi Nakamoto has invented Bitcoin and the Blockchain technology, he is the owner of those too. The reality is that Satoshi Nakamoto has neither control over the Blockchain nor bitcoin. Therefore, it really doesnât matter who Satoshi Nakamoto is.
Blockchain is a technology, and its first function was on the platform named bitcoin. Bitcoin is Blockchain. However, Bitcoin itself is only a cryptocurrency that is capable of replacing fiduciary currency. Nevertheless, not that many people will like the idea at first.
Litecoin Genesis Date - October 7, 2011
Founder Charlie Lee, a former Google and Coinbase employee.
Litecoin reached a $1 billion marketcap in November 2013.[
In May 2017, Litecoin became the first of the top-5 (by market cap) cryptocurrencies to adopt Segregated Witness .
Later in May of the same year, the first Lightning Network transaction was completed through litecoin, transferring 0.00000001 LTC from Zurich to San Francisco in under one second.
How the Blockchain and Crypto Currencies are dramatically reshaping the way the world works.... empowering the 99%. Presented by Meg Montgomery http://electricmeg.com
0x01 - Newton's Third Law: Static vs. Dynamic AbusersOWASP Beja
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f you offer a service on the web, odds are that someone will abuse it. Be it an API, a SaaS, a PaaS, or even a static website, someone somewhere will try to figure out a way to use it to their own needs. In this talk we'll compare measures that are effective against static attackers and how to battle a dynamic attacker who adapts to your counter-measures.
About the Speaker
===============
Diogo Sousa, Engineering Manager @ Canonical
An opinionated individual with an interest in cryptography and its intersection with secure software development.
Have you ever wondered how search works while visiting an e-commerce site, internal website, or searching through other types of online resources? Look no further than this informative session on the ways that taxonomies help end-users navigate the internet! Hear from taxonomists and other information professionals who have first-hand experience creating and working with taxonomies that aid in navigation, search, and discovery across a range of disciplines.
This presentation, created by Syed Faiz ul Hassan, explores the profound influence of media on public perception and behavior. It delves into the evolution of media from oral traditions to modern digital and social media platforms. Key topics include the role of media in information propagation, socialization, crisis awareness, globalization, and education. The presentation also examines media influence through agenda setting, propaganda, and manipulative techniques used by advertisers and marketers. Furthermore, it highlights the impact of surveillance enabled by media technologies on personal behavior and preferences. Through this comprehensive overview, the presentation aims to shed light on how media shapes collective consciousness and public opinion.
Acorn Recovery: Restore IT infra within minutesIP ServerOne
Â
Introducing Acorn Recovery as a Service, a simple, fast, and secure managed disaster recovery (DRaaS) by IP ServerOne. A DR solution that helps restore your IT infra within minutes.
Sharpen existing tools or get a new toolbox? Contemporary cluster initiatives...Orkestra
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UIIN Conference, Madrid, 27-29 May 2024
James Wilson, Orkestra and Deusto Business School
Emily Wise, Lund University
Madeline Smith, The Glasgow School of Art
This presentation by Morris Kleiner (University of Minnesota), was made during the discussion âCompetition and Regulation in Professions and Occupationsâ held at the Working Party No. 2 on Competition and Regulation on 10 June 2024. More papers and presentations on the topic can be found out at oe.cd/crps.
This presentation was uploaded with the authorâs consent.
2. Our Mission
Spartan Blockchain is a registered student organization on Michigan
State Universityâs campus that provides extra-curricular education to
students who are interested in blockchain technologies. By leveraging
prominent blockchain educational resources, strategic partnerships,
corporate advisory services and bi-weekly meeting events Spartan
Blockchain will help jumpstart Michigan State Universityâs ecosystem to
become a leading academic institution in the Blockchain space.
3. Our Core Principles MOTIVATE
EDUCATE
INNOVATE
COLLABORATE
⢠To educate students and community
members about blockchain technology.
⢠To elevate Michigan State University into a
leading institution of blockchain education
through collaborative classroom activities
and hands-on learning.
⢠To prepare our members for a prominent
career in the blockchain space.
⢠To foster diversity and inclusion in our
community and organization
4. Agenda
Blockchain and Bitcoin
Protocol and Consensus
Ethereum, Smart Contracts, PoW vs. PoS
Enterprise Blockchain: Real-World Applications
Blockchainâs Challenges and Limitations
Carla Reyes â Assistant Professor of Law and Director of LegalRnD
Closing Remarks and Questions
6. Blockchain Defined
⢠Blockchain â A decentralized, distributed and public digital ledger that is used
to record transactions across many computers so that the records cannot be
altered without the alteration of all subsequent blocks and the consensus of the
network
Immutable
A write-only database that preserves an
immutable record of all transactions
Decentralized
A peer-to-peer platform distributing
the same replica of data Cryptographically Secure
Public / private key to secure identity,
allowing only verifiable transactions
7. Blockchainâs Add Value Proposition
Reduces Cost
Increases
Revenue
Reduces Risk
Increases
speed and
transparency
⢠Removes the cost of intermediaries
⢠Reduces process re-work, manual
errors, and waste
⢠Creates new products and services
⢠Captures value lost in transit
⢠No single point of failure
⢠No unauthorized alterations
⢠Resistant to collusion
⢠Verifies provenance
⢠Preserves complete audit trail
8. Cryptocurrencies vs. Blockchain Technology
Cryptocurrency - A digital currency in which encryption techniques are used to regulate the generation of
units of currency and verify the transfer of funds, operating independently of a central authority
Bitcoin and Cryptocurrencies
⢠Electronic money protected through
cryptographic mechanism instead of a
central repository
⢠Issued by a decentralized network / protocol
with no single point of failure
⢠Intrinsic value dependent on utility
Blockchain Technology
⢠Technology protocols that group
cryptographically signed transactions into
blocks, validates and link blocks according
to a consensus decision
⢠All transactions are publicly observable
⢠Allowed the emergence of cryptocurrencies
by solving the double spending problem
Input
9. What is Bitcoin? Basic Concepts
⢠Bitcoin was the first use case of blockchain technology solving the challenges of
digital cash in a decentralized manner.
⢠Build upon a combination of computer science, cryptography and economic
concepts
⢠Bitcoin is a cryptocurrency
⢠âBitcoinâ can refer to:
o Bitcoin (uppercase) â The protocol, software and community
o bitcoins (lowercase) â the unit of currency
10. What is Bitcoin? Basic Concepts
⢠Basic jargon:
o Transactions â Transfers of bitcoin from input to output addresses
o Blocks â Timestamped collection of transactions
o Miner â Validates transactions and puts them into blocks
o Blockchain â Entire series of blocks âchainedâ together
o Addresses â Think of them as accounts for now
⢠Where does Bitcoin get its value?
o Bitcoin has value because people believe it has value
11. Use cases of Bitcoin
⢠Remittances â Sending money
cheaply and efficiently across borders
⢠Digital goods â Irreversible trades
⢠Machine to machine payments â IoT
⢠FIAT Currency â âGovernmentâ backed
currency
⢠Micropayments
⢠Digital Gold â A store of value
13. Satoshi Nakamoto and Bitcoin
⢠Satoshi Nakamoto is the anonymous creator
of Bitcoin who wrote a nine-page white
paper that combines all previous efforts to
create a self-sustaining digital currency
⢠First block mined January 3, 2009
o Referenced a story in the Times of
London newspaper involving the
Chancellor bailing out banks
14. The 70 Million Dollar Pizza
⢠On May 21, 2010, Laslo Hanyecz purchased $25 worth of pizza for 10,000 BTC
⢠This was the worldâs first ever Bitcoin transaction interchange for a tangible
asset
⢠10,000 BTC is now equivalent to â$65,000,000
16. Mt. Gox
⢠In 2010 Mt. Gox was established and consolidated itself as the biggest bitcoin
exchange during the beginning states of bitcoin
⢠At its peak Mt. Gox handled ~80% of bitcoinâs daily trading volume
⢠On 6/19/11 Mt. Gox suffered a significant breach of security that resulted in
fraudulent trading and required the site to be shut down for seven days
⢠Lost 744,408 bitcoins in a theft that went unnoticed for years
⢠In February 2014 Mt. Gox filed for bankruptcy
18. Merchant Acceptance & Attention
⢠2014 March â Bitcoin Inventor Satoshi Nakamoto âFoundâ in California
⢠2014 September â Tim Draper: Bitcoinâs Price still heading to $10k
⢠2014 January â Overstock.com becomes first major retailer to accept Bitcoin
⢠2014 April â Colorado Marijuana vending machines will accept Bitcoin
⢠2014 September â PayPal partners with Coinbase, BitPay
⢠2014 December â Microsoft accepts Bitcoin payments
19. Venture funded Bitcoin Startups
Coinbase â Digital currency exchange brokering a variety of currencies while
offering wallet storage capabilities
⢠Founded in June 2012 after enrolling in Y Combinator
⢠May 2013: $5 mil. Series A
⢠December 2013: $25 mil. Series B
⢠May 2014: $75 mil. Series C
21. Ethereum
⢠Open-source public blockchain platform and operation system
featuring smart contract (scripting) functionality
⢠First described in a whitepaper by Vitalik Buterin in 2013
⢠Ethereum crowdsale in July 2014, blockchain launched in 2015
⢠Huge potential for new governance models, broadens definitions of
blockchain and cryptocurrencies
24. Satoshi Nakamotoâs Innovation
Bitcoin was anonymously created by Satoshi Nakamoto in 2009
⢠First block mined January 3rd, 2009
⢠Decentralized, trustless system for transactions
o A low cost financial system that only requires internet access
⢠Nakamoto solved the Double Spending problem
o Prevented someone from spending the same asset twice
o Solution? The blockchain + Proof-of-Work
29. Bitcoinâs Transaction Model
Transaction Pool
1. Transaction G
2. Transaction H
3. Transaction Y
4. Transaction R
5. Transaction A
6. Aliceâs transaction
7. Transaction E
33. Bitcoinâs Transaction Model
Version Major Feature Value Added
1
Signed messages announced to
the network
Basis of entire system
2 The blockchain Shared record of transactions
3 Everyone verifies transactions Increased security
4 Proof-of-Work Prevents double spending
34. Identity in Bitcoin
⢠Send money between pseudonyms
o Pseudonym == address == public key
⢠Cryptographic primitives
o Digital signature scheme (ECDSA: Elliptic Curve Digital Signature Algorithm)
ď§ Like email address + password
o One-way hash function (SHA-256)
35. Bitcoin Transactions
⢠Bitcoin exists purely as a software
o Transactions are conducted through wallet
software
o Wallet creation generates a Bitcoin address
⢠To receive money, you share your address
o Sender specifies address and amount
⢠Transaction is then broadcast to the network,
where âminersâ verify it and add it to the
transaction history
38. Blocks and Blockchains
Blocks
⢠Contains an ordered bunch of transactions
o Timestamps transactions, are
immutable
⢠Each block references a previous block
Blockchain
⢠The entire series of blocks âchainedâ together
39. ⢠Each block consists of several components:
o The block header,
o Previous block hash
o Merkle Root
o Nonce (Solution from mining)
Block Structure
40. Bitcoin Mining
Proof-of-work (PoW)
⢠Proof-of-work is the solution to the mining problem
⢠Proof-of-work is an example of a âByzantine consensus algorithmâ
⢠One of many consensus algorithms
Mining functions as:
⢠Assurance that coins are distributed in a fair way
⢠An incentive for people to help secure the network
⢠Key component that enables you to reach consensus in a decentralized manner
42. Ethereum
⢠Open-source public blockchain platform and operation system
featuring smart contract (scripting) functionality
⢠First described in a whitepaper by Vitalik Buterin in 2013
⢠Ethereum crowdsale in July 2014, blockchain launched in 2015
⢠Huge potential for new governance models, broadens definitions of
blockchain and cryptocurrencies
43. Ethereum
⢠High-level Overview:
o Ethereum is a decentralized platform designed to run Smart Contracts
ď§ No single point of control / failure
ď§ Censorship resistant
o Account-based blockchain
44. Ethereum
⢠Ethereum has a native asset called Ether
o Basis of value in the Ethereum ecosystem
o Needed to align incentives
o Given to miners as reward for finding blocks
45. Ethereum vs. Bitcoin
⢠Ethereum vs. Bitcoin:
o Ethereum: Smart Contract Platform
ď§ Complex and feature-rich
ď§ Turing complete scripting language
o Bitcoin: Decentralized Asset
ď§ Simple and robust
ď§ Simple stack-based language; not Turing complete
46. Ethereum vs. Bitcoin
⢠Account-based instead of UTXO-based
⢠Turing complete scripting language
o Significantly more powerful than Bitcoin Script
o Enable Smart Contracts
⢠The Ether asset is not the primary goal
o Almost side effect of incentive-aligned smart contract platform
⢠Ethereum Plans to move to Proof-of-Stake in the near future
o Bitcoin likely remains Proof-of-Work
48. Smart Contracts
Contracts in Ethereum are like autonomous agents that live inside of Ethereum
Network
⢠React to external world when âpokedâ by transactions
⢠Have direct control over:
o Internal Ether balance
o Internal contract state
o Permanent storage
49. Smart Contracts
⢠Ethereum Contracts generally serve four purposes:
1. Store and maintain data
o Representing something useful to users or other contracts
o Ex: a token currency or organizationâs membership
2. Manage contract or relationship between untrusting users
o Ex: Financial contracts, escrow, insurance
3. Provide functions to other contracts, serving as a software library
4. Complex Authentication
o Ex: M-of-N multisignature access
57. Perspectives
Depending on the audience that youâre speaking to, there are
many differing perspectives on this technology (enterprise
blockchain):
⢠Bitcoin Maximalism
⢠Enterprise Blockchain are worthless
⢠Cryptocurrencies will replace the USD
⢠Cryptocurrencies hold no value and blockchains are useful
⢠Blockchains are very limited in the real world
58. Misconceptions
⢠Enterprise blockchains are always useful
⢠Some uses cases have fundamental flaws, some donât even need to use a
blockchain
⢠Blockchains are always more efficient
⢠Tradeoff between decentralization vs. scalability
⢠Blockchains are always cheap
⢠Blockchains are costly to maintain and develop (mainly a community effort)
⢠Just build your own blockchain (rather than use existing
infrastructure)
⢠Not as simple as one might expect
⢠Existing frameworks have proven success and security
60. Energy
⢠Brooklyn Microgrid Project
⢠https://www.nytimes.com/2017/03/13/business/energy-
environment/brooklyn-solar-grid-energy-trading.html
⢠Enerchain
⢠Eastern-European energy firms testing peer-to-peer
energy trading over the Blockchain
⢠Volt Markets
⢠Energy origination, tracking, and trading platform
⢠Driven by smart contracts on the Ethereum blockchain
61. Elections
⢠Public blockchain allowing for free and fair elections
⢠Voter ID verification
⢠One voice, one vote
⢠Based on technical logic, very secure
⢠Election Results updated in real-time
⢠If scalable, can be used to count popular vote
62. Healthcare
⢠Storing confidential medical records on a private
blockchain
⢠Applications to increase efficiency of the
Prescription process
⢠Allows for opportunities to fight prescription misuse
⢠Payment plan/processing solutions
⢠Insurance
⢠Medicare/Medicaid user tracking (private
blockchain)
65. Hyperledger
⢠Led by Linux Foundation, IBM
⢠20+ corporate members, 120+ start-up & ecosystem participants,
20+ institutions
⢠Consortium to advance blockchain technologies through open-
source, collaborative development
⢠Focus: finance, healthcare, supply chain
⢠Produces enterprise-focused software solutions & tools for
implementing blockchain applications, PoCs, solutions, etc.
⢠Hyperledger Fabric
⢠Private network, modular plug-and-play solutions
⢠Still in âbetaâ phase
66. ConsenSys
⢠Incubator for Ethereum-focused applications,
startups, and developer tools
⢠Founded in 2015 by Joe Lubin (co-founder of
Ethereum)
⢠âHub-and-spokeâ model with shared, central
resources and âspokeâ ventures
⢠Supports adoption, ecosystem expansion, network
effects for Ethereum
⢠Multiple divisions & efforts
⢠E.g., $50M venture fund launched Sept. 2017
(ConsenSys Ventures)
⢠Ethereal conference & hackathon
67. R3CEV
⢠Tech company & banking consortium with 70+
members
⢠Banks, other financial institutions, regulators, trade
associations, etc.
⢠Focused on developing Corda, private open-source
distributed ledger platform designed specifically for
banks
⢠Designed for banks to record, manage, synchronize,
support financial transactions and agreements
⢠Frictionless transactions between banks, supplant current
non-interoperable legacy systems
⢠Launched Sept. 2015, continuously in development
⢠May 2017: $107M Series A funding from 40+ institutions
68. Enterprise Ethereum Alliance
⢠Consortium of 150+ Fortune 500 companies,
startups, academic institutions, governments
⢠Organized to innovate and align around enterprise
applications of the Ethereum blockchain
⢠Provide resources for businesses to learn about Ethereum
⢠Provide roadmap for enterprise features & deployment
requirements
⢠Evolve in tandem with advances in the public Ethereum
blockchain
⢠Standards, clarity around IP & licensing models for
Ethereum open-source code
71. Blockchain in the Public Sector
Challenges & Limitations
Blockchain is not a cure-all
0 1
IMMUTABILITY
A Blockchain is an add-only list. Once data is
added, it canât be removed. Perhaps not a good
fit when updating/deleting data is a regular
occurrence.
0 2
DATA STORAGE
Databases are often used to store large
amounts of data (images, docs, apps, etc.).
However, Blockchain is designed for small
pockets of data. If data storage is needed,
Blockchain may not be a good fit, or a hybrid
solution may ne needed.
0 3
COSTS
Higher short-term costs associated with a still-emerging
technology prevent its widespread use. Blockchain-as-a-
service products are starting to be offered that can allow
for experimentation.
0 4
CODING & GOVERNANCE MODELS
Blockchains are known for eliminating the need for
central authority, but this is not entirely true. They must
be coded and governed by those entrusted with key roles.
Governments must build a technical knowledge base to
ensure these decisions are made well (even if the actual
coding is outsourced).
77. Blockchain Summary:
1. Blockchain technology is a shared, replicated ledger
2. Cryptocurrencies are a single use case for
blockchain technology
3. Blockchain technology addresses an exciting and
topical set of business challenges improving
efficiencies and increasing accessibility for all
industries
4. Students educated and familiar with blockchain
technology will have a competitive advantage once
they enter the workforce
79. Closing Remarks
⢠Thank you WIC, SWE, WE, and MSUEA
⢠SB is working to develop a permissible blockchain
application for Land Grant Goods to track their products
throughout their supply chains
⢠Applications for development are open on our website!
⢠Next Meeting: Next Semester!
⢠Come to our IBM Hyperledger and Ethereum ICO
Development Workshops!
⢠Any questions, comments or suggestions?
msublockchain.org
Editor's Notes
Normally what happens when you make a transaction is that it usually goes through a financial intermediary, a bank, escrow service, credit card provider, etc. to verify and process your transaction
This central authority has an overarching copy of the general ledger of transactions, acting as a central point of failure
Signs her message with her private key and announces it to the network
Bitcoin works around this central point of failure by instead making everyone the bank, each having an individual copy of the transaction ledger
So now when Alice sends her transaction to Bob, itâs added to a list of pending transactions called the transaction pool
Miners then pick and choose which transactions (using whichever transactions that offer the highest reward) they want to add to their potential blocks
Once a minerâs potential block reaches 1MB in size, miners compete to solve a complex set of mathematical equations referred to as Proof-of-Work
- continuously try inputs to reach the correct 32 character output string
The first miner to find the correct answer to the equation then broadcasts the answer to the rest of the network, eventually adding the block to the blockchain confirming all of the corresponding transactions
The first miner to find the correct answer to the equation then broadcasts the answer to the rest of the network, eventually adding the block to the blockchain confirming all of the corresponding transactions
What would happen if Alice tries to send the same Bitcoin to David?
Describe Double Spending
PoW is a competition, the first miner to solve their hashing algorithm is the only miner who can add their individual block to the blockchain
Without this consensus algorithm the possibility for double spending exists
PoW prevents people from double spending
PoW is a competition, the first miner to solve their hashing algorithm is the only miner who can add their individual block to the blockchain
Without this consensus algorithm the possibility for double spending exists
PoW prevents people from double spending
Debating about adding use cases here? Thoughts about anything else to add?
https://www.youtube.com/watch?v=ASCGQFZgcT8
Debating about adding use cases here? Thoughts about anything else to add?
Debating about adding use cases here? Thoughts about anything else to add?
Debating about adding use cases here? Thoughts about anything else to add?
Debating about adding use cases here? Thoughts about anything else to add?
Debating about adding use cases here? Thoughts about anything else to add?