Have you ever thought about integrating Drupal CMS with Blockchain? Imagine two completely different architectures coming together to build a powerful system.
Healthcare Blockchain Summit, Washington DC Mar 21, 2017Edward Bukstel
There is much talk of how Blockchain will revolutionize healthcare. This hype must be tempered by the fact that healthcare already has a trust factor built-in, or patients would not take pills prescribed by doctors, or let providers stick needles in their bodies. It is often said that “Riches are in Niches,” and this is the case for blockchain and areas that are tangential to the direct care of the patient.As referenced in the 2015 ONC Interoperability Roadmap, Social Determinants of Health (SDoH) will need to be connected to the patients’ health status. Physicians currently monitor carboxyhemoglobin as an indicator of a patient’s level of smoking. As part of a smoking cessation program, a smart contract on the clinical Blockchain could identify normal blood carboxyhemoglobin (COhb) as reported by a clinical reference lab from the Laboratory Analyzer Blockchain and execute a request to increase an incentive benefit controlled by a “private / permissioned” USDA Clinical Blockchain. The clinical Blockchain will track the specific “chain of custody” from iStat Analyzer (Accriva, Radiometer, etc…) to the patient test results report, which triggers the smart contract with the USDA to distribute an incentive. Both the physician and the patient are notified of the disbursement. Similar use cases could be implemented for patients with diabetes, and obesity, helping people live healthy lives.
Real estate plays a significant role in the Indian Government’s stated goal of transforming India into a $5 trillion economy and blockchain can play a major role in realising this goal.
A primer on Blockchain, Semantic Web and Ricardian Contracts.
Semantic Blockchain is a proposal where the Semantic Web meets the Blockchain. Combining these two technologies could provide the Semantic web with a transparent proof of work and trust mechanism while conversely disambiguating data stored on the blockchain, solving one of the key challenges with Riccardian/Smart contracts. This presentation will explore how these two technologies might be combine using the example of a smart contract. However the potential application is much bigger and could provide a key back bone underlying the Internet of Things.
Blockchain technology provides a distributed, decentralized database that can be used to build applications for domains like data storage, identity management, transactions, and more. Some key points:
1) Blockchain consists of a growing list of tamper-proof records called blocks that are linked using cryptography.
2) It allows for recording of events and transactions in a secure, distributed manner without centralized control.
3) This can be applied to areas like medical records, property records, voting, and more to improve security, transparency and trust.
4) Blockchain could transform the internet by providing alternatives to centralized systems for domains like DNS, data storage, traffic routing and more.
Understanding Blockchain: Distributed Ledger TechnologySuraj Kumar Jana
A complete introduction to Distributed Ledger Technology and Blockchain. Also, get introduced to Hyperledger, an open source permissioned blockchain framework by The Linux Foundation.
Pistoia Alliance Blockchain Webinar 20 June 2017Pistoia Alliance
This webinar discussed potential applications of blockchain technology in healthcare. It began with polls to assess participants' familiarity with blockchain. Panelists then provided overviews of blockchain and examples of potential use cases in areas like clinical trials, medical records, and supply chain/serialization. Key challenges around privacy, security and regulatory compliance with blockchain were also addressed. The webinar concluded by discussing the path to adoption, with collaboration and early prototyping seen as important to help manage hype and realize blockchain's potential benefits for healthcare.
Application of Blockchain in Library and Information ServicesDavid Nzoputa Ofili
The talk was given on Tuesday, the 21st of September 2021 at the Nigerian Library Association (NLA) Virtual Workshop on Contemporary ICT Practices in Library and Information Services.
This document provides an introduction to Hyperledger, an open source collaborative effort to advance blockchain technologies. It discusses that Hyperledger was created to enable a worldwide developer community to work together on blockchain ideas, infrastructure and code. It then provides examples of compelling use cases for blockchain in different industries like banking, financial services, healthcare, IT and supply chain management. Finally, it outlines some of the current Hyperledger projects including frameworks like Fabric, Sawtooth and tools like Caliper, Cello and Explorer that are being developed to help enterprises deliver on the promise of blockchain.
This document presents an overview of the Blockchain applications in Life Sciences. The applications are mapped onto Life Sciences value chain – preclinical, clinical, manufacturing, distribution, and customer. Blockchain could be used in many applications across the value chain including but not limited to peer-to-peer network, data storage, smart contracts and file sharing. This innovative technology presents a lot of promise in accelerating drug discovery and removing many inefficiencies.
This disclaimer informs readers know that the views, thoughts, and opinions expressed in the presentation belong solely to the author, and not to the author’s employer, organization, committee or other group or individual.
A.Schumacher (2017) Blockchain & Healthcare: A Strategy GuideGalen Growth
This document discusses how blockchain technology can revolutionize the healthcare industry by improving data security, data sharing, and interoperability. It outlines several potential applications of blockchain, including increasing efficiency in clinical trials through new data and incentive models that empower patients and researchers. Blockchain could also help address issues like improving auditability of transactions, reducing healthcare fraud and the impacts of data breaches. The document argues that blockchain technologies have matured and can now enable the building of a global, secure precision medicine ecosystem.
Blockchain is a disruptive technology currently becoming the news topic of everyday. This presentation explains three essential questions relating to Blockchain:
1) Why to use it?
2) How does Blockchain actually work?
3) Where its currently being used and where it could be used.
Few examples have been explained using the Blockchain 1.0 i.e. BitCoin Blockchain.
Some use cases have been visited in this ppt.
Microsoft Azure for Blockchain as a Service (BaaS) has also been touched upon.
This document discusses how blockchain can help manage the growing medical device market, which is projected to reach $640 billion by 2020. Blockchain allows different medical systems to communicate securely and privately within a decentralized network. It helps with security, availability, registration, identity management, authentication, provenance tracking, maintenance, auditing, and compliance. While blockchain is not a perfect solution, it addresses many healthcare information problems by providing a simple, transparent, and immutable record of transactions.
Blockchains can be applied to big data in several ways:
1) Blockchains can add a new data construct to big data systems by providing features like atomicity, immutability, and provenance to data.
2) Blockchain data from cryptocurrencies like Bitcoin can be analyzed alongside other data sources to generate insights for applications in areas like trading, risk scoring, and compliance.
3) Blockchains can be used to build applications that provide data governance, compliance, legal archiving, and chain of custody for big data lakes. They can also enable attribution and licensing of digital works.
This provides a deep intro to the blockchain technology, and explores several use-cases within healthcare where it could lead to disruption and add value
This document provides an overview of blockchain technology. It defines blockchain as a distributed secure ledger that stores data across a network in an encrypted way that makes it difficult to hack. Blockchains use cryptography and consensus algorithms to securely store data and execute smart contracts without needing a centralized authority. This allows for high levels of transparency, security, and fault tolerance. The document discusses how blockchains can transform organizations by enabling trustless transactions through decentralized networks.
Cryptocurrencies and blockchain technology may provide an alternative to traditional venture capital funding models. Initial Coin Offerings (ICOs) allow projects to raise funds by selling tokens, with some ICOs raising over $100 million. ICOs provide advantages over VC such as shorter fundraising timelines and no governance requirements for project founders. However, ICOs also face challenges including lack of regulation and providing long-term community support. The future of funding in the decentralized economy remains unclear as both ICOs and cooperation between VCs and blockchain projects evolve.
Machine learning presentation in using pyhtonmasukmia.com
Cloud computing allows users to access data and applications over the internet instead of locally on their own computers. It provides benefits like reduced costs, increased storage, flexibility and scalability. However, it also poses risks to privacy, security and reliability if the internet connection or cloud provider experiences issues. Blockchain is a distributed database that records transactions in a way that allows multiple parties to access and update the same data transparently. It has applications in areas like digital identity, voting, notarization and smart contracts that could transform daily life through increased security and efficiency of transactions. Both cloud computing and blockchain impact daily life through enabling new services and changing how data is stored, accessed and shared globally over the internet.
Application of Blockchain Technologies in Digital ForensicsMahdi_Fahmideh
This lecture, from course CIS8708-Digital Forensics (Guide to Computer Forensics and Investigations), discusses the role of blockchain technologies in digital forensics investigation
Blockchain is a distributed database or digital ledger of transactions that is duplicated and shared among members of a network. Each block contains a cryptographic hash of the previous block, a timestamp, and transaction data. By design, blockchains are inherently resistant to modification of the data. The blockchain serves as an open, distributed ledger that can record transactions between parties efficiently and in a verifiable and permanent way, without the need for a central authority. This document provides an overview of blockchain technology, including its fundamentals, types, how it works, applications, advantages, and disadvantages.
Blockchain is a distributed database or digital ledger of transactions that is duplicated and shared among members of a network. Each block contains a cryptographic hash of the previous block, a timestamp, and transaction data. By design, blockchains are inherently resistant to modification of the data. The blockchain serves as an open, distributed ledger that can record transactions between parties efficiently and in a verifiable and permanent way, without the need for a central authority. Some key applications of blockchain technology include cryptocurrencies, financial exchanges, lending, insurance, secure personal information, voting, real estate transactions, and healthcare records. The major advantages are that it is open, verifiable, permanent, secure, efficient and reduces costs. Major challenges include scalability,
Pros and Cons of Blockchain Technology: Your Complete Go-to GuidePixel Crayons
The benefits of Blockchain are many, but do you know what makes it the need of the hour? Multiple participants manage its decentralized database known as Distributed Ledger Technology (DLT).
Yes, Blockchain is a disruptive technology compared to traditional database systems. Besides, not a single entity controls it; there is no chance of exploitation or suppression from any one party. As a business owner, I know you might be thinking of adopting Blockchain; however, you are still unsure about it.
To take you out of this dilemma, I am here to discuss some most prominent pros and cons of Blockchain. So, get ready to dive deep and discover some amazing Blockchain pros along with some blockchain cons.
Since the technology is not so old and needs expertise, always hire a trusted Blockchain development company.
Blockchain technology is a revolutionary way of storing and transferring data. While it has its share of cons, it is possible to rectify most of them with the right planning and execution. The current state of blockchain technology makes it the best suit for businesses that want to take advantage of its distributed ledger features. However, the technology is not simple as it seems to be. Hence, I would once again recommend you to hire Blockchain developers with experience and the right skills in Blockchain development services. Otherwise, your business may suffer.
How Blockchain Development Can Revolutionize Your Digital Strategy.pdfPixel Softwares
Reinvent Digital Dynamics: Embrace the power of blockchain technology to reimagine your digital strategy. With decentralized solutions and smart contracts, Pixel Softwares can revolutionize your business landscape.
Blockchain can be used across the whole manufacturing industry to address all different types of projects and stakeholders. Its value to the manufacturing vertical is promising as Industry 4.0 continues to grow.
10 Essentials on Blockchain Development: From Basics to EthicsSteve Hodgkiss
Blockchain technology has become a buzzword in recent years, with many industries exploring its potential applications. As such, there is a growing demand for blockchain developers who can build secure, decentralized applications. This article outlines ten essential concepts for anyone interested in blockchain development, from the basics to the ethics of this emerging technology.
The article begins by introducing the basics of blockchain technology, including its history, key components, and benefits. It explains how a blockchain works as a decentralized database, with each block containing a record of transactions that are cryptographically linked to the previous block. This ensures the integrity of the data and makes it nearly impossible to tamper with the records.
The second essential concept covered in the article is smart contracts. These are self-executing contracts that are coded into the blockchain and automatically execute when certain conditions are met. The article explains how smart contracts can be used to automate processes and eliminate the need for intermediaries.
The third concept covered is consensus mechanisms, which are the rules that govern how transactions are validated and added to the blockchain. The article describes the different types of consensus mechanisms, including proof of work, proof of stake, and delegated proof of stake.
Next, the article explores scalability issues in blockchain development. As blockchain technology continues to grow, it will need to be able to handle an increasing number of transactions. The article discusses some of the solutions being developed to address this challenge, such as sharding and sidechains.
The fifth essential concept covered is security. Blockchain technology is often touted as being secure, but it is still vulnerable to attacks. The article explains some of the security risks associated with blockchain technology, such as 51% attacks, and outlines best practices for securing blockchain applications.
The sixth concept covered is interoperability. As blockchain technology becomes more widespread, it will need to be able to work with other systems and technologies. The article describes some of the efforts underway to develop interoperability standards and protocols.
Next, the article explores governance and regulation in the blockchain space. As blockchain technology becomes more widely adopted, governments and regulatory bodies will need to develop policies and regulations to ensure that it is used ethically and responsibly. The article discusses some of the issues surrounding blockchain governance and the need for collaboration between stakeholders.
The eighth essential concept covered is privacy. While blockchain technology is designed to be transparent, it can also be used to protect user privacy. The article explains how privacy can be built into blockchain applications through techniques such as zero-knowledge proofs and encryption [..]
This slide is about 'Blockchain Technology'. Blockchain is a method of recording information that makes it impossible or difficult for the system to be changed, hacked, or manipulated. A blockchain is a distributed ledger that duplicates and distributes transactions across the network of computers participating in the blockchain. Blockchain helps verify and trace multistep transactions needing verification and traceability. Cryptocurrencies are usually built using blockchain technology. Blockchain describes the way transactions are recorded into "blocks" and time stamped. It's a fairly complex, technical process, but the result is a digital ledger of cryptocurrency transactions that's hard for hackers to tamper with.
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The document discusses key aspects of blockchain technology including:
1) Blocks in a blockchain contain a hash of the previous block, a timestamp, and transaction data represented as a Merkle tree.
2) Centralized systems have issues like single points of failure, lack of trust, and scalability limitations. Blockchain addresses these through decentralization and immutability.
3) Blockchain maintains immutability through cryptographic hashing of blocks, decentralization across nodes, and consensus algorithms.
BASIC INTRODUCTION TO BLOCKCHAIN - JOEL SUMANTH RAJ.pdfJOELCONTACTS
Blockchain Technology is a shared, immutable ledger that facilitates the process of recording transactions and tracking assets in a business network. An asset can be tangible (a house, car, cash, land) or intangible (intellectual property, documents, contracts, patents, copyrights, branding).
How does the Blockchain Work?
A blockchain is a distributed, peer-to-peer database that hosts a continuously growing number of transactions. Each transaction, referred to as a “block,” is secured through cryptography, timestamped, and validated by every authorized member of the database using consensus algorithms (i.e., a set of rules). A transaction that is not validated by all members of the database is not added to the database. Every transaction is attached to the previous transaction in sequential order, creating a chain of transactions (or blocks). A transaction cannot be deleted or edited, thereby creating an immutable audit trial. A transaction can only be changed by adding another transaction to the chain.
What are the benifits of blockchain Technology?.pdfSmith Daniel
Is a blockchain initiative on your 2022 agenda? Here are few benefits of blockchain technology and examples of businesses that are taking advantage of them.
What are the benifits of Blockchain Technology?Smith Daniel
Is a blockchain initiative on your 2022 agenda? Here are few benefits of blockchain technology and examples of businesses that are taking advantage of them.
Blockchain is a distributed database that stores information in blocks that are linked together to form a chain. This structure provides security and guarantees the accuracy of records. While blockchains first found widespread use in cryptocurrencies, the technology has other potential applications such as payment processing, supply chain monitoring, and digital IDs. However, most proposed uses beyond cryptocurrencies and financial services have not been implemented. Blockchain comes with costs like slower speeds compared to traditional databases. It is best used when high security outweighs the need for speed and there are no suitable existing non-blockchain database options.
Details in how InfiniteChain is the most practical solution to connect your centralized environment with public blockchain. Ethereum-based InfiniteChain addresses the blockchain bottleneck of privacy, transaction speed and block bloat.
Blockchain first appeared in 2008 when Satoshi Nakamoto introduced the blockchain structure for bitcoin, the first cryptocurrency. Prior work on blockchain technology dates back to 1991, but it was Nakamoto who improved the structure by using a hash cash-like technique to record timestamps of added blocks without central authorization. Since 2008, blockchain has grown significantly, with the size of the bitcoin blockchain network reaching over 200 gigabytes by 2020 as adoption of the technology has increased. Blockchain allows transactions to be recorded in a decentralized, immutable public ledger.
Blockchain Technology | A Comprehensive Guide by Webtrack TechnologiesWebtrack Technologies
Webtrack Technologies stands at the forefront of this transformative wave. We offer a complete set of blockchain solutions that support businesses and promote digital innovation
Top 20 interview questions for blockchain & supply chain professionalBlockchain Council
Blockchain acts as a ledger where data is stored digitally and is time-stamped. Businesses can make use of these records to track the data and its provenance. Hence, it becomes beneficial for companies dealing with supply chain management. Some of the common records that can be stored on DLT are :
Blockchain is a distributed ledger or record of transactions shared across a network of computers. Each transaction on the blockchain is recorded and stored on the blockchain through a complex validation process without the need for a central authority. Blockchain provides advantages of openness and transparency as anyone can view transaction records, collective maintenance as many nodes can participate to validate transactions, and reliability through data backups across nodes. Due to these advantages, blockchain has promising applications in many fields like finance, healthcare, supply chains and more.
Similar to How Drupal & Blockchain Are Changing The Perception Of Decentralized Architecture (20)
What's Next Web Development Trends to Watch.pdfSeasiaInfotech2
Explore the latest advancements and upcoming innovations in web development with our guide to the trends shaping the future of digital experiences. Read our article today for more information.
Data Protection in a Connected World: Sovereignty and Cyber Securityanupriti
Delve into the critical intersection of data sovereignty and cyber security in this presentation. Explore unconventional cyber threat vectors and strategies to safeguard data integrity and sovereignty in an increasingly interconnected world. Gain insights into emerging threats and proactive defense measures essential for modern digital ecosystems.
Fluttercon 2024: Showing that you care about security - OpenSSF Scorecards fo...Chris Swan
Have you noticed the OpenSSF Scorecard badges on the official Dart and Flutter repos? It's Google's way of showing that they care about security. Practices such as pinning dependencies, branch protection, required reviews, continuous integration tests etc. are measured to provide a score and accompanying badge.
You can do the same for your projects, and this presentation will show you how, with an emphasis on the unique challenges that come up when working with Dart and Flutter.
The session will provide a walkthrough of the steps involved in securing a first repository, and then what it takes to repeat that process across an organization with multiple repos. It will also look at the ongoing maintenance involved once scorecards have been implemented, and how aspects of that maintenance can be better automated to minimize toil.
Scaling Connections in PostgreSQL Postgres Bangalore(PGBLR) Meetup-2 - MydbopsMydbops
This presentation, delivered at the Postgres Bangalore (PGBLR) Meetup-2 on June 29th, 2024, dives deep into connection pooling for PostgreSQL databases. Aakash M, a PostgreSQL Tech Lead at Mydbops, explores the challenges of managing numerous connections and explains how connection pooling optimizes performance and resource utilization.
Key Takeaways:
* Understand why connection pooling is essential for high-traffic applications
* Explore various connection poolers available for PostgreSQL, including pgbouncer
* Learn the configuration options and functionalities of pgbouncer
* Discover best practices for monitoring and troubleshooting connection pooling setups
* Gain insights into real-world use cases and considerations for production environments
This presentation is ideal for:
* Database administrators (DBAs)
* Developers working with PostgreSQL
* DevOps engineers
* Anyone interested in optimizing PostgreSQL performance
Contact info@mydbops.com for PostgreSQL Managed, Consulting and Remote DBA Services
UiPath Community Day Kraków: Devs4Devs ConferenceUiPathCommunity
We are honored to launch and host this event for our UiPath Polish Community, with the help of our partners - Proservartner!
We certainly hope we have managed to spike your interest in the subjects to be presented and the incredible networking opportunities at hand, too!
Check out our proposed agenda below 👇👇
08:30 ☕ Welcome coffee (30')
09:00 Opening note/ Intro to UiPath Community (10')
Cristina Vidu, Global Manager, Marketing Community @UiPath
Dawid Kot, Digital Transformation Lead @Proservartner
09:10 Cloud migration - Proservartner & DOVISTA case study (30')
Marcin Drozdowski, Automation CoE Manager @DOVISTA
Pawel Kamiński, RPA developer @DOVISTA
Mikolaj Zielinski, UiPath MVP, Senior Solutions Engineer @Proservartner
09:40 From bottlenecks to breakthroughs: Citizen Development in action (25')
Pawel Poplawski, Director, Improvement and Automation @McCormick & Company
Michał Cieślak, Senior Manager, Automation Programs @McCormick & Company
10:05 Next-level bots: API integration in UiPath Studio (30')
Mikolaj Zielinski, UiPath MVP, Senior Solutions Engineer @Proservartner
10:35 ☕ Coffee Break (15')
10:50 Document Understanding with my RPA Companion (45')
Ewa Gruszka, Enterprise Sales Specialist, AI & ML @UiPath
11:35 Power up your Robots: GenAI and GPT in REFramework (45')
Krzysztof Karaszewski, Global RPA Product Manager
12:20 🍕 Lunch Break (1hr)
13:20 From Concept to Quality: UiPath Test Suite for AI-powered Knowledge Bots (30')
Kamil Miśko, UiPath MVP, Senior RPA Developer @Zurich Insurance
13:50 Communications Mining - focus on AI capabilities (30')
Thomasz Wierzbicki, Business Analyst @Office Samurai
14:20 Polish MVP panel: Insights on MVP award achievements and career profiling
What Not to Document and Why_ (North Bay Python 2024)Margaret Fero
We’re hopefully all on board with writing documentation for our projects. However, especially with the rise of supply-chain attacks, there are some aspects of our projects that we really shouldn’t document, and should instead remediate as vulnerabilities. If we do document these aspects of a project, it may help someone compromise the project itself or our users. In this talk, you will learn why some aspects of documentation may help attackers more than users, how to recognize those aspects in your own projects, and what to do when you encounter such an issue.
These are slides as presented at North Bay Python 2024, with one minor modification to add the URL of a tweet screenshotted in the presentation.
Are you interested in dipping your toes in the cloud native observability waters, but as an engineer you are not sure where to get started with tracing problems through your microservices and application landscapes on Kubernetes? Then this is the session for you, where we take you on your first steps in an active open-source project that offers a buffet of languages, challenges, and opportunities for getting started with telemetry data.
The project is called openTelemetry, but before diving into the specifics, we’ll start with de-mystifying key concepts and terms such as observability, telemetry, instrumentation, cardinality, percentile to lay a foundation. After understanding the nuts and bolts of observability and distributed traces, we’ll explore the openTelemetry community; its Special Interest Groups (SIGs), repositories, and how to become not only an end-user, but possibly a contributor.We will wrap up with an overview of the components in this project, such as the Collector, the OpenTelemetry protocol (OTLP), its APIs, and its SDKs.
Attendees will leave with an understanding of key observability concepts, become grounded in distributed tracing terminology, be aware of the components of openTelemetry, and know how to take their first steps to an open-source contribution!
Key Takeaways: Open source, vendor neutral instrumentation is an exciting new reality as the industry standardizes on openTelemetry for observability. OpenTelemetry is on a mission to enable effective observability by making high-quality, portable telemetry ubiquitous. The world of observability and monitoring today has a steep learning curve and in order to achieve ubiquity, the project would benefit from growing our contributor community.
Quality Patents: Patents That Stand the Test of TimeAurora Consulting
Is your patent a vanity piece of paper for your office wall? Or is it a reliable, defendable, assertable, property right? The difference is often quality.
Is your patent simply a transactional cost and a large pile of legal bills for your startup? Or is it a leverageable asset worthy of attracting precious investment dollars, worth its cost in multiples of valuation? The difference is often quality.
Is your patent application only good enough to get through the examination process? Or has it been crafted to stand the tests of time and varied audiences if you later need to assert that document against an infringer, find yourself litigating with it in an Article 3 Court at the hands of a judge and jury, God forbid, end up having to defend its validity at the PTAB, or even needing to use it to block pirated imports at the International Trade Commission? The difference is often quality.
Quality will be our focus for a good chunk of the remainder of this season. What goes into a quality patent, and where possible, how do you get it without breaking the bank?
** Episode Overview **
In this first episode of our quality series, Kristen Hansen and the panel discuss:
⦿ What do we mean when we say patent quality?
⦿ Why is patent quality important?
⦿ How to balance quality and budget
⦿ The importance of searching, continuations, and draftsperson domain expertise
⦿ Very practical tips, tricks, examples, and Kristen’s Musts for drafting quality applications
https://www.aurorapatents.com/patently-strategic-podcast.html
Interaction Latency: Square's User-Centric Mobile Performance MetricScyllaDB
Mobile performance metrics often take inspiration from the backend world and measure resource usage (CPU usage, memory usage, etc) and workload durations (how long a piece of code takes to run).
However, mobile apps are used by humans and the app performance directly impacts their experience, so we should primarily track user-centric mobile performance metrics. Following the lead of tech giants, the mobile industry at large is now adopting the tracking of app launch time and smoothness (jank during motion).
At Square, our customers spend most of their time in the app long after it's launched, and they don't scroll much, so app launch time and smoothness aren't critical metrics. What should we track instead?
This talk will introduce you to Interaction Latency, a user-centric mobile performance metric inspired from the Web Vital metric Interaction to Next Paint"" (web.dev/inp). We'll go over why apps need to track this, how to properly implement its tracking (it's tricky!), how to aggregate this metric and what thresholds you should target.
Performance Budgets for the Real World by Tammy EvertsScyllaDB
Performance budgets have been around for more than ten years. Over those years, we’ve learned a lot about what works, what doesn’t, and what we need to improve. In this session, Tammy revisits old assumptions about performance budgets and offers some new best practices. Topics include:
• Understanding performance budgets vs. performance goals
• Aligning budgets with user experience
• Pros and cons of Core Web Vitals
• How to stay on top of your budgets to fight regressions
Blockchain and Cyber Defense Strategies in new genre timesanupriti
Explore robust defense strategies at the intersection of blockchain technology and cybersecurity. This presentation delves into proactive measures and innovative approaches to safeguarding blockchain networks against evolving cyber threats. Discover how secure blockchain implementations can enhance resilience, protect data integrity, and ensure trust in digital transactions. Gain insights into cutting-edge security protocols and best practices essential for mitigating risks in the blockchain ecosystem.
AC Atlassian Coimbatore Session Slides( 22/06/2024)apoorva2579
This is the combined Sessions of ACE Atlassian Coimbatore event happened on 22nd June 2024
The session order is as follows:
1.AI and future of help desk by Rajesh Shanmugam
2. Harnessing the power of GenAI for your business by Siddharth
3. Fallacies of GenAI by Raju Kandaswamy
Implementations of Fused Deposition Modeling in real worldEmerging Tech
The presentation showcases the diverse real-world applications of Fused Deposition Modeling (FDM) across multiple industries:
1. **Manufacturing**: FDM is utilized in manufacturing for rapid prototyping, creating custom tools and fixtures, and producing functional end-use parts. Companies leverage its cost-effectiveness and flexibility to streamline production processes.
2. **Medical**: In the medical field, FDM is used to create patient-specific anatomical models, surgical guides, and prosthetics. Its ability to produce precise and biocompatible parts supports advancements in personalized healthcare solutions.
3. **Education**: FDM plays a crucial role in education by enabling students to learn about design and engineering through hands-on 3D printing projects. It promotes innovation and practical skill development in STEM disciplines.
4. **Science**: Researchers use FDM to prototype equipment for scientific experiments, build custom laboratory tools, and create models for visualization and testing purposes. It facilitates rapid iteration and customization in scientific endeavors.
5. **Automotive**: Automotive manufacturers employ FDM for prototyping vehicle components, tooling for assembly lines, and customized parts. It speeds up the design validation process and enhances efficiency in automotive engineering.
6. **Consumer Electronics**: FDM is utilized in consumer electronics for designing and prototyping product enclosures, casings, and internal components. It enables rapid iteration and customization to meet evolving consumer demands.
7. **Robotics**: Robotics engineers leverage FDM to prototype robot parts, create lightweight and durable components, and customize robot designs for specific applications. It supports innovation and optimization in robotic systems.
8. **Aerospace**: In aerospace, FDM is used to manufacture lightweight parts, complex geometries, and prototypes of aircraft components. It contributes to cost reduction, faster production cycles, and weight savings in aerospace engineering.
9. **Architecture**: Architects utilize FDM for creating detailed architectural models, prototypes of building components, and intricate designs. It aids in visualizing concepts, testing structural integrity, and communicating design ideas effectively.
Each industry example demonstrates how FDM enhances innovation, accelerates product development, and addresses specific challenges through advanced manufacturing capabilities.
How RPA Help in the Transportation and Logistics Industry.pptxSynapseIndia
Revolutionize your transportation processes with our cutting-edge RPA software. Automate repetitive tasks, reduce costs, and enhance efficiency in the logistics sector with our advanced solutions.
The Rise of Supernetwork Data Intensive ComputingLarry Smarr
Invited Remote Lecture to SC21
The International Conference for High Performance Computing, Networking, Storage, and Analysis
St. Louis, Missouri
November 18, 2021
2. Introduction:
Blockchain technology is a decentralized, replicated & shared ledger for
managing and keeping record of transactions across multiple participants.
Before the blockchain technology swept everyone right of the floor,
traditional transactions were centralized and dependent on a third-party to
create a trust-worthy environment where the transaction partners are
strangers.
Blockchain distributed ledger technology allows different nodes to interact
directly with each other, being independent of a third party source.
3. How BlockChain Works?
1. A Transaction is Requested
2. A Block that represents the transaction is created
3. The Block is sent to every node in the Network
4. Nodes Validate the Transaction -> Nodes Receive a reward for the proof of Work
5. The Block is added to the existing Blockchain
6. The Transaction is Complete.
4. What Does This Mean for Digital Content?
The digital world was rocked by one of the most complex cases of data breach- the
Facebook controversy.
Not to forget, the “Google Terms of Service” that allows Google to actively track almost
every internet activity of yours.
Data that is handled by a central entity, is easily accessible while the user does not have
complete control.
With Blockchain technology, things are going to be different. It ensures that the data
stored is completely tamper proof and no single organization can take hostage of data.
Blockchain decentralized technologies that are playing a vital role in digital content
management are : IOTA, Smart Contracts from Etherium, Bitcoin, Hyperledger, Blockchain
database from BigchainDB.
5. Where Does Drupal Fit In?
Workflows of Drupal and Blockchain are completely different. For example consider a
Hospital with a number of branches around the country.There is a ton of data and
everything has to be handled efficiently to ensure things don't go out of hand!
By creating a Blockchain decentralized architecture which is secure and also immutable,
blockchain can handle every piece of information precisely, as well play a huge role in
reduction of cost and the time-cycle of transactions.
Blockchain Architecture allows rule based transactions possible with no communication
gaps. All the approvals and the information edited, deleted and corrected will be
documented.
6. 1. Let us consider a Hospital with a number of branches around the country. A
healthcare network is huge, with great amount of data.
2. By creating a decentralized architecture which is secure and also immutable,
blockchain can handle every piece of information precisely
3. Patient data for example can be made universally available and the info can
be validated by the patient himself, by providing him access and control.
4. Blockchain can create an architecture that allows rule based transactions
possible with no communication gaps. All the approvals and the information
edited, deleted and corrected will be documented. Yes, this system has a few
challenges of its own with respect to need for a decentralized consensus.
7. 5. This is where, Drupal CMS comes into the picture. Now if this entire
healthcare network was on Drupal, each department of the hospital had its
own website handled by Drupal individually.
6. For example, Drupal 1 could deal with patient data across the main
website. And Drupal 2 could take care of medical claims and other insurances.
While Drupal 3 could handle career and other campaigns.
7. Blockchain and Drupal together can do wonders for a better integration.
8. Conclusion:
People now are quite aware of their rights on data and how organizations breach the data
privacy policy to gain control over it. Today organizations across various industries around
the world are testing their business applications of blockchain technology.
With the Drupal community looking to explore options beyond the ever used centralized
content distribution, it is time to think seriously about implementing Drupal with
blockchain technology.