The AWS Public Blockchain Data provide datasets from the Bitcoin and Ethereum blockchains. The blockchain data is transformed into multiple tables as compressed Parquet files partitioned by date to allow efficient access for most common analytics queries.
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Bitcoin's blockchain size was close to reaching 5450 gigabytes in 2024, as the database saw exponential growth by nearly one gigabyte every few days. The Bitcoin blockchain contains a continuously growing and tamper-evident list of all Bitcoin transactions and records since its initial release in January 2009. Bitcoin has a set limit of 21 million coins, the last of which will be mined around 2140, according to a forecast made in 2017. Bitcoin mining: A somewhat uncharted world Despite interest in the topic, there are few accurate figures on how big Bitcoin mining is on a country-by-country basis. Bitcoin's design philosophy is at the heart of this. Created out of protest against governments and central banks, Bitcoin's blockchain effectively hides both the country of origin and the destination country within a (mining) transaction. Research involving IP addresses placed the United States as the world's most Bitcoin mining country in 2022 - but the source admits IP addresses can easily be manipulated using VPN. Note that mining figures are different from figures on Bitcoin trading: Africa and Latin America were more interested in buying and selling BTC than some of the world's developed economies. Bitcoin developments Bitcoin's trade volume slowed in the second quarter of 2023, after hitting a noticeable growth at the beginning of the year. The coin outperformed most of the market. Some attribute this to the announcement in June 203 that BlackRock filed for a Bitcoin ETF. This iShares Bitcoin Trust was to use Coinbase Custody as its custodian. Regulators in the United States had not yet approved any applications for spot ETFs on Bitcoin.
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Bitcoin and other cryptocurrencies have captured the imagination of technologists, financiers, and economists. Digital currencies are only one application of the underlying blockchain technology. Like its predecessor, Bitcoin, the Ethereum blockchain can be described as an immutable distributed ledger. However, creator Vitalik Buterin also extended the set of capabilities by including a virtual machine that can execute arbitrary code stored on the blockchain as smart contracts.
Both Bitcoin and Ethereum are essentially OLTP databases, and provide little in the way of OLAP (analytics) functionality. However the Ethereum dataset is notably distinct from the Bitcoin dataset:
The Ethereum blockchain has as its primary unit of value Ether, while the Bitcoin blockchain has Bitcoin. However, the majority of value transfer on the Ethereum blockchain is composed of so-called tokens. Tokens are created and managed by smart contracts.
Ether value transfers are precise and direct, resembling accounting ledger debits and credits. This is in contrast to the Bitcoin value transfer mechanism, for which it can be difficult to determine the balance of a given wallet address.
Addresses can be not only wallets that hold balances, but can also contain smart contract bytecode that allows the programmatic creation of agreements and automatic triggering of their execution. An aggregate of coordinated smart contracts could be used to build a decentralized autonomous organization.
The Ethereum blockchain data are now available for exploration with BigQuery. All historical data are in the ethereum_blockchain dataset
, which updates daily.
Our hope is that by making the data on public blockchain systems more readily available it promotes technological innovation and increases societal benefits.
You can use the BigQuery Python client library to query tables in this dataset in Kernels. Note that methods available in Kernels are limited to querying data. Tables are at bigquery-public-data.crypto_ethereum.[TABLENAME]
. Fork this kernel to get started.
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In 2021, global spending on blockchain solutions is projected to reach 6.6 billion dollars. Forecasts suggest that spending on blockchain solutions will continue to grow in the coming years, reaching almost 19 billion U.S. dollars by 2024.
What is blockchain?
Widely known for its association with cryptocurrencies such as Bitcoin, blockchain technology is simply an electronic list of connected records and verified records. Some of the benefits of this electronic “ledger” are that it is tamper-evident and can be efficiently updated online due to its nature as a decentralized network across many devices. These features make the technology perfect for data validation, data access, and identity protection, which serve as blockchain’s most common use cases. Enterprises around the world have begun to adopt private blockchain for internal purposes such as record keeping and intra-company transactions, as well as public blockchain like Bitcoins in their payment processes.
The business of blockchain
Given the potential of the technology and the widespread business interest in the capabilities it can provide, blockchain has become a huge market in its own right, even at this relatively early stage of the technology’s development. Promising blockchain startup companies regularly accumulate hundreds of millions of dollars of investment in their initial offerings, with particularly successful ones such as EOS raking in multiple billions.
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Market Definition:
The Enterprise Blockchain Market size was valued at USD 4.9 billion in 2021 and is predicted to reach USD 246 billion by 2030 with a CAGR of 54.5% from 2022-2030.
Blockchain technology refers to an advanced, well-established distributed ledger that is utilized to record transactions and information from different frameworks where data is un-modifiable. It is a method of storing data that prevents anyone from altering, hacking, or duplicating it.
The main essence of enterprise blockchain is a trusted record of data, which is held by assembling organizations and chosen third parties to assess it with no central user control. Blockchain plays a fundamental part in the enterprise as it works on the asset management and payment cycle consequently and eliminates the intermediaries. This technology has shown the prolonged use of cryptocurrencies such as Bitcoin, Ethereum, and others that keeps transparency while exchanging information. In addition, an enterprise blockchain is a permissioned blockchain where companies have direct command over it. Enterprise blockchain also has the facility to block transactions that do not fulfill its protocols.
Market Dynamics and Trends
Increasing demand for enterprise blockchain due to the growing trend of cryptocurrencies owing to its transparency and visibility attracts the interest of the investors coupled with safer technology in terms of data threats as blockchain is a peer-to-peer network database ruled by a decentralized system concerned across the globe. Also, the rising penetration of cloud services coupled with digital money and asset management due to the affordability, security, and reliability of blockchain when compared to centralized cloud storage has been driving the growth of the market.
Moreover, rising awareness of data protection from malware among enterprises is expected to further propel the growth of the enterprise blockchain market. For instance, blockchain transactions are r
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Blockchain technology, first implemented by Satoshi Nakamoto in 2009 as a core component of Bitcoin, is a distributed, public ledger recording transactions. Its usage allows secure peer-to-peer communication by linking blocks containing hash pointers to a previous block, a timestamp, and transaction data. Bitcoin is a decentralized digital currency (cryptocurrency) which leverages the Blockchain to store transactions in a distributed manner in order to mitigate against flaws in the financial industry.
Nearly ten years after its inception, Bitcoin and other cryptocurrencies experienced an explosion in popular awareness. The value of Bitcoin, on the other hand, has experienced more volatility. Meanwhile, as use cases of Bitcoin and Blockchain grow, mature, and expand, hype and controversy have swirled.
In this dataset, you will have access to information about blockchain blocks and transactions. All historical data are in the bigquery-public-data:crypto_bitcoin
dataset. It’s updated it every 10 minutes. The data can be joined with historical prices in kernels. See available similar datasets here: https://www.kaggle.com/datasets?search=bitcoin.
You can use the BigQuery Python client library to query tables in this dataset in Kernels. Note that methods available in Kernels are limited to querying data. Tables are at bigquery-public-data.crypto_bitcoin.[TABLENAME]
. Fork this kernel to get started.
Allen Day (Twitter | Medium), Google Cloud Developer Advocate & Colin Bookman, Google Cloud Customer Engineer retrieve data from the Bitcoin network using a custom client available on GitHub that they built with the bitcoinj
Java library. Historical data from the origin block to 2018-01-31 were loaded in bulk to two BigQuery tables, blocks_raw and transactions. These tables contain fresh data, as they are now appended when new blocks are broadcast to the Bitcoin network. For additional information visit the Google Cloud Big Data and Machine Learning Blog post "Bitcoin in BigQuery: Blockchain analytics on public data".
Photo by Andre Francois on Unsplash.
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This dataset dives deep into the intricacies of Bitcoin blocks, presenting a comprehensive and holistic perspective. It meticulously captures unique attributes inherent to block datasets, such as block size, the number of transactions, and miner rewards, offering a window into the complex mechanics of the blockchain ecosystem. Updated in real-time, this dataset stands as a testament to the ever-evolving world of blockchain, making it an invaluable resource for a broad spectrum of users. Whether you're a financial expert analyzing block dynamics, a researcher delving into the subtleties of block configurations, or a blockchain aficionado eager to grasp the foundational elements, this dataset is designed with you in mind.
If you require further insights or have any inquiries regarding this dataset, please don't hesitate to contact us at info@blockchair.com. Our team is dedicated to assisting you and ensuring you maximize the value of the information provided.
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A blockchain is a distributed ledger with growing lists of records (blocks) that are securely linked together via cryptographic hashes. Each block contains a cryptographic hash of the previous block, a timestamp, and transaction data (generally represented as a Merkle tree, where data nodes are represented by leaves). Since each block contains information about the previous block, they effectively form a chain (compare linked list data structure), with each additional block linking to the ones before it. Consequently, blockchain transactions are irreversible in that, once they are recorded, the data in any given block cannot be altered retroactively without altering all subsequent blocks.
Bitcoin's Blockchain is public. Anybody can run a node locally and get access to all the blocks, since genesis to the current height. However, this process can take some time as the current size exceeds 400 gigabytes and managing the data can be complex as most implementations require the data to be decoded.
The purpose of this dataset is to aid individual researches and developers to be able to analyze the blockchain deeply or even train machine learning models in just a few minutes, instead of several hours/days.
dataset.csv
In this dataset, you will get access to the most relevant information about the Bitcoin Blockchain to kick off your data science project or machine learning model. It is also very easy to subset the data if you're looking to focus on a specific date range.
If you found this dataset useful, please up-vote it to show your appreciation.
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This fileset contains the L2TAP (Linked Data Log to Transparency, Accountability, and Privacy) privacy audit logs used in the experimental evaluation described in the associated Blockchain Enabled Privacy Audit Logs, ISWC 2017 research paper. The datasets contain RDF named graphs that illustrate various privacy events in an L2TAP audit log as well as signature and block RDF graphs described in the associated publication. Each zip folder holds synthetic L2TAP log data, simulating the process of an auditor checking the integrity of an audit log. A basic log consists of eight events: log initialization, participants registration, privacy preferences and policies, access request, access response, obligation acceptance, performed obligation, and actual access.The zip file name refers to the number of events in the log, e.g. 9998, while individual .rdf files refer to specific events logged.Data are provided in .rdf format, accessible from standard text edit software, within compressed .zip files, which can be uncompressed using standard compression utilities.Background (associated publication abstract):Privacy audit logs are used to capture the actions of participants in a data sharing environment in order for auditors to check compliance with privacy policies. However, collusion may occur between the auditors and participants to obfuscate actions that should be recorded in the audit logs. In this paper, we propose a Linked Data based method of utilizing blockchain technology to create tamper-proof audit logs that provide proof of log manipulation and non-repudiation. We also provide experimental validation of the scalability of our solution using an existing Linked Data privacy audit log model.
Bitcoin is a peer-to-peer electronic payment system that popularized rapidly in recent years. Usually, we need to query the complete history of bitcoin blockchain data to acquire variables of economic meaning. This becomes increasingly difficult now with over 1.6 billion historical transactions on the Bitcoin blockchain. It is thus important to query Bitcoin transaction data in a way that is more efficient and provides economic insights. We apply cohort analysis that interprets bitcoin blockchain data using methods developed for population data in social science. Specifically, we query and process the Bitcoin transaction input and output data within each daily cohort. With this, we then create datasets and visualizations for some key indicators of bitcoin transactions, including the daily lifespan distributions of accumulated spent transaction output (STXO) and the daily age distributions of accumulated unspent transaction output (UTXO). We provide a computationally feasible approach to characterize bitcoin transactions, which paves the way for future studies of economic behaviors in the emerging market of Bitcoin.
Github:https://github.com/SciEcon/UTXO arXiv: https://arxiv.org/abs/2103.0017 Nature Research: https://www.nature.com/articles/s41597-022-01254-0 Nature PDF: https://rdcu.be/cKRkg
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The global blockchain technology market size was valued at USD 17.46 billion in 2023 and is expected to grow at a CAGR of 87.7% from 2023 to 2030
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Accessing the in-depth insights from the ‘Blockchain’ report can help you:Gain a valuable understanding of the current and future state of the market, allowing businesses to make informed decisions about m Read More
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The global blockchain technology market is projected to increase from a size of US$ 19.7 billion in 2024 to 2,450.4 billion by the end of 2034, expanding rapidly at a CAGR of 62% between 2024 and 2034.
Report Attributes | Details |
---|---|
Blockchain Technology Market Size (2024E) | US$ 19.7 Billion |
Projected Market Value (2034F) | US$ 2,450.4 Billion |
Global Market Growth Rate (2024 to 2034) | 62% CAGR |
China Market Value (2034F) | US$ 268.9 Billion |
Canada Market Growth Rate (2024 to 2034) | 62.7% CAGR |
North America Market Share (2024E) | 23.9% |
East Asia Market Value (2034F) | US$ 566 Billion |
Key Companies Profiled |
|
Country-wise Insights
Attribute | United States |
---|---|
Market Value (2024E) | US$ 2.1 Billion |
Growth Rate (2024 to 2034) | 62.7% CAGR |
Projected Value (2034F) | US$ 271.5 Billion |
Attribute | China |
---|---|
Market Value (2024E) | US$ 2.2 Billion |
Growth Rate (2024 to 2034) | 62% CAGR |
Projected Value (2034F) | US$ 268.9 Billion |
Category-wise Insights
Attribute | Infrastructure & Protocols |
---|---|
Segment Value (2024E) | US$ 11.8 Billion |
Growth Rate (2024 to 2034) | 60.9% CAGR |
Projected Value (2034F) | US$ 1,370 Billion |
Attribute | Public Cloud |
---|---|
Segment Value (2024E) | US$ 12.2 Billion |
Growth Rate (2024 to 2034) | 60.6% CAGR |
Projected Value (2034F) | US$ 1,390 Billion |
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Blockchain Technology Market Report 2023-2027:
The Global Blockchain Technology Market size is estimated to grow by USD 11,047.61 million accelerating at a CAGR of 32.72% between 2022 and 2027. The growth of the market depends on several factors, including increasing venture capital funding and investments in blockchain technology, easier access to technology, and disintermediation of banking services.
This market research and growth report extensively covers market segmentation by end-user (BFSI, government, healthcare, and others), type (private, public, and hybrid), and geography (North America, Europe, APAC, South America, and Middle East and Africa). It also includes an in-depth analysis of drivers, trends, and challenges.
What will be the Size of the Market During the Forecast Period?
To learn more about this report, Request Free Sample
market Definition
The distributed ledger system known as the blockchain, which is cryptographically controlled, is mostly used to control online transactions. The development of distributed ledger technologies followed the introduction of cryptocurrencies like Bitcoin. BT was first used in the financial services industry. Right now, suppliers have created BT that may be used in a variety of business sectors, including healthcare.
Key Drivers, Trends, Challenges, and Customer Landscape
Our researchers analyzed the data with 2022 as the base year, along with the key drivers, trends, and challenges. A holistic analysis of drivers will help companies refine their marketing strategies to gain a competitive advantage.
Key Market Driver
Easier access to technology is a primary market driver. Blockchain technology is increasingly popular for its decentralized structure, transparency, and immutability. However, its technical complexity can hinder accessibility for newcomers. To address this, intuitive user interfaces can be designed, simplifying blockchain interaction for consumers without in-depth technical knowledge. Educational materials like webinars and tutorials can aid in understanding of blockchain's applications in real-world problem-solving. Collaborating with other entities allows stakeholders to develop user-friendly solutions, making blockchain widely available. These efforts are expected to drive growth in the global market during the forecast period.
Significant Market Trends
The advent of artificial intelligence is a major trend propelling the growth of the market. The gradual integration of AI into blockchain technology has the potential to revolutionize its usage and interactions. Here are some instances of how AI is utilized in the blockchain:
Smart Contracts: AI-powered smart contracts can automatically execute when specific criteria are met, enabling efficient management of complex business operations and decision-making.
Predictive Analytics: AI can analyze vast amounts of data generated by blockchain networks, uncovering trends and patterns to forecast future behaviour. This aids decision-making in areas like risk assessment, supply chain management, and fraud detection.
Privacy: AI enables selective information disclosure while preserving user anonymity during transactions, enhancing blockchain network privacy.
Security: AI algorithms can detect and address potential security risks by examining network traffic and user behavior, bolstering overall network security.
With customers gaining easy access to comparison data and investors making more informed decisions, the widespread adoption of AI technology is expected to drive the growth of the global market during the forecast period.
Major Market Challenge
Security, privacy, and blockchain transaction concerns may impede market growth. The technology provides a secure and transparent platform for different types of transactions. However, there are concerns about security, privacy, and transaction validation. A network of nodes verifies and validates transactions on a blockchain, which makes it challenging for one group to control the system. Moreover, blockchain networks have faced attacks where a single party can modify transactions by controlling more than half of a network's computing power. In addition, there have been cases of digital assets being stolen.
Though this it offers a decentralized and transparent platform, there are several privacy issues. On a public blockchain, every user on the network can view transactions. Therefore, there is a need to strike a balance between transparency and privacy. Adequate regulations are required to guarantee the legitimacy of transactions. Therefore, it is important to ensure that transactions are accurately logged and timestamped. These factors are expected to challenge the growth of the global market during the forecast period.
Key Market Customer Landscape
The Market forecasting report includes the adoption lifecycle of the market, covering from
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The global Blockchain Devices Market in terms of revenue was estimated to be worth USD 482 Million in 2021 and is poised to reach USD 2,459 Million by 2026, growing at a CAGR of 38.5% from 2021 to 2026. The new research study consists of an industry trend analysis of the market.
Report Scope
Estimated Market Size USD 482 Million in 2021
Projected Market Size USD 2,459 Million by 2026
Growth Rate 38.5%
Years Considered 2019–2030
Base Year Considered 2021
Forecast Period 2024–2030
Forecast Units Value (USD Million/Billion)
Segments Covered
Type, Connectivity, Application, End User
Regions Covered
North America, Asia Pacific, Europe, and the Rest of the World
Companies Covered
Ledger (France), SatoshiLabs (Czech Republic), SIRIN LABS (Switzerland), Pundi X (Singapore), Genesis Coin (US), GENERAL BYTES (Czech Republic), HTC (Taiwan), RIDDLE&CODE (Austria), ShapeShift (UK), Bitaccess (Canada), Coinsource (US), Samsung (South Korea), Infineon Technologies (Germany), Helium Systems (US), AVADO (Switzerland), Lamassu Industries (Switzerland), Tangem (Switzerland)
Blockchain Devices Market Highlights
This report has segmented the overall Blockchain Devices Market based on Type, Connectivity, Application, End User, and Region.
By Component:
Hardware Wallets Blockchain Smartphones PoS Devices Crypto ATMs Blockchain IoT Gateways Other Devices (Tags, Loggers, Pre-Configured Devices, and Chips)
By Connectivity:
Wired Wireless
By Application:
Personal Corporate
By End User:
Consumer BFSI Government Retail & E-commerce Travel & Hospitality Automotive Transportation & Logistics IT & Telecommunication Others (Energy & Utilities, Education, Agriculture, Healthcare, Manufacturing)
By Region North America, US, Canada, Mexico, Europe, UK, Germany, France, Rest of Europe, Asia Pacific, China, Japan, South Korea, India, Rest of Asia Pacific, Rest of the World, Middle East & Africa, South America
The Bitcoin Partial Transaction Datasets contain three snapshots of Bitcoin transaction data for easier analysis, namly dataset1_2014_11_1500000, dataset2_2015_6_1500000 and dataset3_2016_1_1500000. We sample the snapshots from November 2014 to January 2016 with six months as the sampling interval. Each snapshot contains the first 1,500,000 transaction records in its corresponding month, namly Nov. 2014, Jun. 2015 and Jan. 2016.
We also provide a file including the labeled addresses belonging to mixing services, and these addresses were active during the observing time of our snapshots.
Due to the pseudonymous requirements of Bitcoin, it is unlikely to enforce Know-Your-Customer (KYC) processes, which are guidelines in anti-money laundering. However, mixing services in Bitcoin, originally designed to enhance transaction anonymity, have been widely employed for money laundry to complicate trailing illicit fund.
In our work, we study mixing service detection with this dataset. For further study, we can chase up users involved in criminal activities by analyzing users who take part in Bitcoin mixing.
The details of dataset1_2014_11_1500000 are described below. The file structure of dataset2_2015_6_1500000 and dataset3_2016_1_1500000 are similar to EthereumG1. You can know more information from the README file.
For more details about blockchain dataset, please click here.
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The blockchain technology market is predicted to surge at an exemplary CAGR of 44.3% through 2033, reaching US$ 181.1 billion in valuation, up from just US$ 4.6 billion in 2023.
Attribute | Details |
---|---|
Blockchain Technology Market Size (2023) | US$ 4.6 billion |
Sales Forecast (2033) | US$ 181.1 billion |
Global Market Growth Rate (2023 to 2033) | 44.3% CAGR |
Share of Top 5 Players | 50% |
How Has the Market Progressed So Far in 2023?
Market Statistics | Details |
---|---|
H1, 2022 (A) | 39.3% |
H1, 2023 Projected (P) | 41.0% |
H1, 2023 Outlook (O) | 42.5% |
BPS Change: H1, 2023 (O)-H1, 2023(P) | (+) 150 ↑ |
BPS Change : H1, 2023 (O)-H1, 2022(A) | (+) 316 ↑ |
Country-wise Analysis
Region | North America |
---|---|
Country | United States |
CAGR | 46.1% |
Market Value (2033) | US$ 97.7 billion |
Region | Europe |
---|---|
Country | United Kingdom |
CAGR | 31.6% |
Market Value (2033) | US$ 10.3 billion |
Region | Asia Pacific |
---|---|
Country | China |
CAGR | 33.9% |
Market Value (2033) | US$ 5.0 billion |
Region | Asia Pacific |
---|---|
Country | South Korea |
CAGR | 35.2% |
Market Value (2033) | US$ 1.1 billion |
Region | Asia Pacific |
---|---|
Country | Japan |
CAGR | 29.7% |
Market Value (2033) | US$ 2.3 billion |
Ethereum is a crypto currency which leverages blockchain technology to store transactions in a distributed ledger. A blockchain is an ever-growing "tree" of blocks, where each block contains a number of transactions. To learn more, read the "Ethereum in BigQuery: a Public Dataset for smart contract analytics" blog post by Google Developer Advocate Allen Day. This dataset is part of a larger effort to make cryptocurrency data available in BigQuery through the Google Cloud Public Datasets program . The program is hosting several cryptocurrency datasets, with plans to both expand offerings to include additional cryptocurrencies and reduce the latency of updates. You can find these datasets by searching "cryptocurrency" in GCP Marketplace. For analytics interoperability, we designed a unified schema that allows all Bitcoin-like datasets to share queries. Interested in learning more about how the data from these blockchains were brought into BigQuery? Looking for more ways to analyze the data? Check out the Google Cloud Big Data blog post and try the sample queries below to get started. This public dataset is hosted in Google BigQuery and is included in BigQuery's 1TB/mo of free tier processing. This means that each user receives 1TB of free BigQuery processing every month, which can be used to run queries on this public dataset. Watch this short video to learn how to get started quickly using BigQuery to access public datasets. What is BigQuery .
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WannaCry Bitcoin Cash-in and Cash-out payment network data in JSON along with STIX representation of address 12t9YDPgwueZ9NyMgw519p7AA8isjr6SMw12t9YDPgwueZ9NyMgw519p7AA8isjr6SMw
The AWS Public Blockchain Data provide datasets from the Bitcoin and Ethereum blockchains. The blockchain data is transformed into multiple tables as compressed Parquet files partitioned by date to allow efficient access for most common analytics queries.