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TinyTap and Open Campus to Host EDU Denver, a Fusion Event for Education and Web3 Leaders | IDOs News

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TinyTap and Open Campus to Host EDU Denver, a Fusion Event for Education and Web3 Leaders | IDOs News
TinyTap and Open Campus to Host EDU Denver, a Fusion Event for Education and Web3 Leaders | IDOs News







Education innovators TinyTap and Open Campus have announced their inaugural event, “EDU Denver,” set to take place on June 24, 2024, from 19:00 to 23:00 MST in Denver, Colorado. This free event aims to bring together leaders in education and Web3 to explore the expansion of a decentralized education ecosystem, according to Animoca Brands.

Event Highlights

EDU Denver promises an evening filled with inspiring talks, hands-on demonstrations, networking opportunities, and entertainment. The event coincides with the prestigious International Society for Technology in Education (ISTE) conference, offering attendees a unique opportunity to blend the latest advancements in classroom and at-home learning with Web3 innovations.

Notable speakers at the event include Yogev Shelly, Vriti Saraf, Amanda Slavin, and Taylor Kendal. The event is sponsored by Ed3DAO, LearningFREQUENCY, Learning Economy Foundation, and CodeMonkey. Drinks and refreshments will be provided, and attendance is free, though prior registration is required.

About the Organizers

TinyTap, a subsidiary of Animoca Brands, is one of the most downloaded kids’ apps globally, featuring over 250,000 interactive lessons created by educators worldwide. Open Campus, a decentralized education protocol, aims to address challenges in the education sector by building robust decentralized infrastructure, including the first layer 3 blockchain built for education – EDU Chain.

Open Campus has already attracted over 100,000 learners and includes more than 80 prestigious educational companies in its alliance, such as BitDegree, CoderSchool, Weeve, and GEMS Education. EDU Denver marks the first in a series of events aimed at expanding this alliance.

Event Details

  • Date: June 24, 2024
  • Time: 19:00 to 23:00 MST (GMT-6)
  • Location: Denver, Colorado
  • Entrance Fee: Free (registration mandatory)

Elie Wiesel, a community contributor to Open Campus, expressed excitement about the event, noting the potential of Web3 to lower barriers in education and make knowledge sharing more collaborative. Yogev Shelly, CEO and Founder of TinyTap, highlighted the effort invested in supporting Open Campus’s vision of a more open and fair education system.

About Open Campus

Open Campus is a community-led protocol designed for educators, content creators, parents, and students. It aims to put learning decisions back into the hands of educators and students, fostering a collaborative environment and opening new revenue streams for effective educators worldwide. More information can be found on their website.

About TinyTap

Founded in 2012, TinyTap, a subsidiary of Animoca Brands, is the world’s largest library of educational games, featuring over 250,000 activities created by educators and publishers. The platform serves more than 11 million registered family members and is among the top 10 grossing kids’ apps worldwide. Further details are available on their website.

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Enhancing Agent Planning: Insights from LangChain | IDOs News

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Enhancing Agent Planning: Insights from LangChain | IDOs News
Enhancing Agent Planning: Insights from LangChain | IDOs News




Alvin Lang
Jul 21, 2024 04:57

LangChain explores the limitations and future of planning for agents with LLMs, highlighting cognitive architectures and current fixes.





According to a recent LangChain Blog post, planning for agents remains a critical challenge for developers working with large language models (LLMs). The article delves into the intricacies of planning and reasoning, current fixes, and future expectations for agent planning.

What Exactly Is Meant by Planning and Reasoning?

Planning and reasoning by an agent involve the LLM’s ability to decide on a series of actions based on available information. This includes both short-term and long-term steps. The LLM evaluates all available data and decides on the first step it should take immediately, followed by subsequent actions.

Most developers use function calling to enable LLMs to choose actions. Function calling, first introduced by OpenAI in June 2023, allows developers to provide JSON schemas for different functions, enabling the LLM to match its output with these schemas. While function calling helps in immediate actions, long-term planning remains a significant challenge due to the need for the LLM to think about a longer time horizon while managing short-term actions.

Current Fixes to Improve Planning by Agents

One of the simplest fixes is ensuring the LLM has all the necessary information to reason and plan appropriately. Often, the prompt passed into the LLM lacks sufficient information for reasonable decision-making. Adding a retrieval step or clarifying prompt instructions can significantly improve outcomes.

Another recommendation is changing the cognitive architecture of the application. Cognitive architectures can be categorized into general-purpose and domain-specific architectures. General-purpose architectures, like the “plan and solve” and Reflexion architectures, provide a generic approach to better reasoning. However, these may be too general for practical use, leading to the preference for domain-specific cognitive architectures.

General Purpose vs. Domain Specific Cognitive Architectures

General-purpose cognitive architectures aim to improve reasoning generically and can be applied to any task. For example, the “plan and solve” architecture involves planning first and then executing each step. The Reflexion architecture includes a reflection step after task completion to evaluate correctness.

Domain-specific cognitive architectures, on the other hand, are tailored to specific tasks. These often include domain-specific classification, routing, and verification steps. The AlphaCodium paper demonstrates this with a flow engineering approach, specifying steps like coming up with tests, then a solution, and iterating on more tests. This method is highly specific to the problem at hand and may not be applicable to other tasks.

Why Are Domain Specific Cognitive Architectures So Helpful?

Domain-specific cognitive architectures help by providing explicit instructions, either through prompt instructions or hardcoded transitions in code. This method effectively removes some planning responsibilities from the LLM, allowing engineers to handle the planning aspect. For instance, in the AlphaCodium example, the steps are predefined, guiding the LLM through the process.

Nearly all advanced agents in production utilize highly domain-specific and custom cognitive architectures. LangChain makes building these custom architectures easier with LangGraph, designed for high controllability, which is essential for creating reliable custom cognitive architectures.

The Future of Planning and Reasoning

The LLM space has been evolving rapidly, and this trend is expected to continue. General-purpose reasoning is likely to become more integrated into the model layer, making models more intelligent and capable of handling larger contexts. However, there will always be a need to communicate specific instructions to the agent, whether through prompting or custom cognitive architectures.

LangChain remains optimistic about the future of LangGraph, believing that as LLMs improve, the need for custom architectures will persist, especially for task-specific agents. The company is committed to enhancing the controllability and reliability of these architectures.

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Binance (BNB) Unveils CPT Framework to Analyze Crypto Market Dynamics | IDOs News

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Binance (BNB) Unveils CPT Framework to Analyze Crypto Market Dynamics | IDOs News
Binance (BNB) Unveils CPT Framework to Analyze Crypto Market Dynamics | IDOs News




Rebeca Moen
Jul 21, 2024 09:51

Binance Research introduces the CPT Framework to analyze crypto market dynamics, focusing on capital, people, and technology as key structural drivers.





Binance Research has introduced a comprehensive framework to analyze the current state of the cryptocurrency market, termed the CPT Framework. This model aims to shed light on both short- and long-term drivers influencing market dynamics, according to Binance Research.

The past few months have been challenging for the crypto markets. Following a rapid rise at the start of the year, the market has been trading within a range. June saw an 11.4% decline in total crypto market capitalization month-on-month, despite some recent relief. As of now, the market remains 14% down from its March peak.

Drivers of Market Weakness

Several market events have contributed to the recent decline in crypto prices. Key among these was the distribution of 140,000 BTC (approximately $9 billion) to Mt. Gox creditors starting July 5. Additionally, the German government transferred 50,000 BTC (~$3.2 billion) to centralized exchanges and market makers between June 19 and July 13. The U.S. government also transferred 3,940 BTC (worth $248 million) to Coinbase Prime on June 26. Despite these large-scale disposals, some mitigating factors suggest that the impact may be short-lived.

Introducing the CPT Framework

Binance’s CPT Framework categorizes structural market factors into three distinct areas: Capital, People, and Technology. Each of these factors plays a crucial role in shaping the long-term health of the crypto market.

1. Capital

The influx of new money into the crypto ecosystem has slowed. This stagnation has resulted in a “Player vs. Player” (PvP) market, where participants compete for returns. Indicators such as stablecoin supply stagnation, a slowdown in funds raised by projects, and outflows from spot BTC ETFs highlight this trend.

Key Takeaways:

  • New capital is essential for sustainable market growth.
  • Attracting new capital requires appealing to investors across primary, secondary, and traditional finance markets.
  • Strong fundamentals and clear narratives are beneficial in attracting and retaining investor interest.

2. People

Market participants have faced challenges in generating sustainable returns. Retail users, institutional investors, project teams, market makers, and regulators have all been impacted by high valuations and sell pressure from token unlocks. Falling trading volumes since March further indicate a challenging environment.

Key Takeaways:

  • High valuations and low initial circulating supplies pose long-term structural challenges.
  • Increased awareness and research on tokenomics can help mitigate these issues.
  • Support for high-quality projects with small to medium market capitalization is crucial for a healthy market environment.

3. Technology

Technological advancements in blockchain and crypto, such as scaling solutions and user-focused developments, are crucial for onboarding new users. However, the focus remains disproportionately on infrastructure projects, which need to be balanced with the development of diverse and innovative dApps.

Key Takeaways:

  • Technological innovations attract a broader audience by providing tangible use cases.
  • Funding should be redirected to develop user-friendly dApps to amplify the reach of the crypto ecosystem.

Market Outlook

Despite recent challenges, Binance Research remains optimistic about the market’s outlook for the rest of the year. Several upcoming catalysts could propel the industry forward, including potential approvals of spot ETH ETFs, a favorable macro environment with potential interest rate cuts, the U.S. Presidential Election, and the Bitcoin halving event.

Market cycles consist of periods of ups and downs. Pullbacks serve as a healthy reset when there are excesses in the market. Long-term investors might see market corrections as opportunities to add to their portfolios, while risk-averse investors may consider holding their positions.

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NVIDIA Advances AI-Driven 6G Innovation with AI-RAN Alliance, 3GPP, and O-RAN | IDOs News

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NVIDIA Advances AI-Driven 6G Innovation with AI-RAN Alliance, 3GPP, and O-RAN | IDOs News
NVIDIA Advances AI-Driven 6G Innovation with AI-RAN Alliance, 3GPP, and O-RAN | IDOs News




Rebeca Moen
Jul 21, 2024 05:27

NVIDIA collaborates with AI-RAN, 3GPP, and O-RAN to drive AI-driven innovations in 6G technology, focusing on AI-native tools and frameworks.





The development of 6G technology is accelerating as the 5G era advances. NVIDIA is at the forefront, working with key industry players to foster innovation and collaboration in AI-driven 6G solutions, according to the NVIDIA Technical Blog.

AI Blueprints for Radio Access Network

The Radio Access Network (RAN) is a critical component of cellular networks, and AI/ML methodologies are being integrated to manage its increasing complexity. The International Telecommunications Union (ITU) has proposed an AI-native air interface for 6G, aimed at enhancing performance through AI/ML. NVIDIA has contributed significantly to 3GPP’s Release 18 study on AI/ML for the 5G New Radio (NR) air interface and is now focusing on Release 19, which will expand AI/ML integration.

Digital Twin Networks

Digital Twin Networks (DTNs) are essential for simulating and validating AI/ML models in 6G. These networks emulate physical 5G/6G networks, allowing developers to create and test AI/ML models in a controlled environment. NVIDIA’s Aerial Omniverse Digital Twin is a next-generation simulation platform designed to support AI-native air interface research and development.

Over-the-Air Innovation Sandbox

An Over-the-Air (OTA) development platform complements DTNs by providing a real-world environment to validate and benchmark AI/ML algorithms. NVIDIA’s Aerial RAN CoLab Over-The-Air (ARC-OTA) serves as a 3GPP Release 15 compliant, full-stack network sandbox, enabling developers to test and refine their innovations.

Collaboration with Industry Leaders

NVIDIA is collaborating with the AI-RAN Alliance, 3GPP, and O-RAN to drive AI/ML-enabled innovations that will define 6G. The AI-RAN Alliance focuses on creating implementation blueprints and benchmarking AI/ML algorithms for the new AI-native RAN. Meanwhile, the O-RAN Alliance is working on an AI-focused transformation towards an open and interoperable architecture.

Future Prospects

The pace of AI/ML adoption in 6G is expected to accelerate as standards become clearer and commercial deployment approaches. NVIDIA’s 6G Developer Program, which includes over a thousand researchers, is a key platform for ongoing and future collaborations. Researchers are encouraged to join this program to contribute to the advancement of 6G technology.

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