Latest news with #APU
The Star
a day ago
- Health
- The Star
APU, MOH team up for digital health
BRINGING healthcare forward demands innovation, especially in an age marked by technological advancement. That also involves commercialising research that can benefit the healthcare industry. Cognisant of the need to drive this area, the Health Ministry (MOH) and the Asia Pacific University of Technology & Innovation (APU) plan to co-develop entrepreneurs within the ministry, transforming innovations into commercial products. The collaboration follows the varsity's recent appointment as one of the ministry's official consultants to the Health Performance Unit (HPU). Among the initiatives under this collaboration is the Asia Pacific Centre for Robotic Engineering (APCoRE), which is pioneering biomedical robotics such as brain-computer interfaces, virtual reality-based rehabilitation systems, soft robotic mobility aids, and TremorX solutions for Parkinson's patients. APU chief enterprise & innovation officer Prof Dr Vinesh Thiruchelvam – who is leading the varsity's consultancy efforts for the HPU, supported by Forensics and Cyber Security Research Centre (FSeC) head Dr Julia Juremi and Asia Pacific Centre for Analytics (APCA) head Hema Latha Krishna Nair – said under its structured 10-year development framework, APU has strategically aligned its research and talent development with national economic drivers, especially in healthcare. 'We are engaging undergraduate students in real-world, impact-driven innovation,' he said in a press release dated July 3. In healthcare innovation, Hema Latha and her team at APCA are advancing predictive and prescriptive analytics to support clinical decision-making, including disease forecasting tools and treatment rescheduling systems. APU's broader research efforts also span epidemiological studies, such as Type 2 diabetes prevalence, dengue outbreak modelling, and insights into nasopharyngeal carcinoma, leveraging global datasets like those from the United States Centers for Disease Control and Prevention. Further projects include artificial intelligence (AI) and machine learning collaborations on ventilator maintenance, as well as extended reality (XR) technologies led by APU XR Studio head Dr Siti Azreena for immersive medical training and mental health awareness. In addition, APU Centre for IoT and Drones director Narendran Ramasenderan is developing automated hospital transport systems, medical drones and AI disease detection tools. Deputy Health Minister Datuk Lukanisman Awang Sauni – who visited the varsity on June 30 following APU's appointment to the HPU on May 26 – expressed optimism about collaborations with private universities such as APU, particularly in upskilling healthcare professionals and broadening postgraduate education pathways. 'Our future-ready system must be built on strong academic and industry partnerships,' he said. He added that Malaysia's healthcare landscape is undergoing a transformative shift, steered by digital innovation, strategic planning, and a firm policy direction. 'To enhance system interoperability, the ministry is working towards the rollout of a nationwide electronic medical record system, placing cybersecurity and data privacy at the core,' he said. He also highlighted the ministry's efforts in exploring legislation to regulate the use of AI in healthcare. 'We are ensuring that while technology supports clinical decisions, it never overrides medical autonomy,' he said, adding that the ministry's Digital Health Division is now tasked not only with software and hardware development but also with shaping policies around telemedicine, medical devices and digital standards. In his concluding remarks, APU chief executive officer Datuk Parmjit Singh underscored the importance of cultivating future-ready talent and bridging the gap between research and industry application. 'Talent is the cornerstone of economic progress. At APU, we focus on producing graduates who are not only skilled but also globally competitive, particularly in cybersecurity,' he said, adding that a significant portion of the varsity's academic staff are former industry professionals, ensuring the curriculum remains relevant and practical. He also highlighted APU's strong culture of entrepreneurship through strategic partnerships and an active alumni network, creating a supportive ecosystem for innovation and economic contribution. Lukanisman's visit included a tour of the varsity's facilities, including the Cybersecurity Talent Zone, FSeC, APCA, XR Studio and APCoRE. Also present during the visit were HPU director Dr Saravanan S.R. Sundaramurthy and senior ministry officers.
Geeky Gadgets
4 days ago
- Geeky Gadgets
Ryzen Z2 Extreme : Docked Gaming Performance Pushed to Its Limits
What if your compact gaming setup could deliver the kind of performance usually reserved for full-sized rigs? Enter the Ryzen Z2 Extreme, AMD's latest APU designed to redefine docked mode gaming. Promising native 1440p gameplay and incremental improvements over its predecessor, the Z1 Extreme, this chip aims to push the limits of what small form-factor systems can achieve. But here's the catch: while its innovative architecture shows flashes of brilliance, it also grapples with thermal constraints and power management challenges that could leave gamers questioning its consistency. Is the Z2 Extreme a bold leap forward or just a cautious step in the right direction? In this exploration, ETA Prime explores the Z2 Extreme's real-world gaming performance, from its strengths in multi-core workloads to its struggles in graphically demanding scenarios. You'll discover how this APU balances hardware capabilities with software optimizations, why thermal management plays a pivotal role in unlocking its potential, and whether its incremental gains justify an upgrade from the Z1 Extreme. Along the way, we'll highlight the benchmarks, technologies like FidelityFX Super Resolution (FSR), and cooling solutions that shape its performance. The Z2 Extreme may not be perfect, but its promise of compact power invites a closer look at the future of gaming hardware. AMD Ryzen Z2 Extreme Overview Core Features of the Ryzen Z2 Extreme The Ryzen Z2 Extreme is engineered to push the boundaries of native 1440p gaming, aiming to deliver smooth gameplay with minimal reliance on upscaling technologies like FidelityFX Super Resolution (FSR). However, its real-world performance paints a more nuanced picture. Below are its standout features: Compact system design: Optimized for small form-factor devices with a focus on gaming performance. Optimized for small form-factor devices with a focus on gaming performance. 1440p gaming capabilities: Targets native high-resolution gaming but faces challenges in demanding scenarios. Targets native high-resolution gaming but faces challenges in demanding scenarios. Incremental improvements: Offers modest gains in multi-core performance compared to the Z1 Extreme. Offers modest gains in multi-core performance compared to the Z1 Extreme. Thermal and power constraints: Performance is limited at higher power levels due to heat management challenges. Performance Analysis: Strengths and Shortcomings The Ryzen Z2 Extreme strives to deliver high-quality gaming experiences, but its performance varies depending on the scenario. While it demonstrates modest improvements in multi-core workloads, it struggles to maintain consistent results in graphically intensive games, particularly at elevated Thermal Design Power (TDP) settings. This inconsistency underscores the need for further optimization through driver updates and system-level refinements. At 1080p, the APU performs reliably across most games, especially when using FSR and frame generation technologies. However, at 1440p, its limitations become more apparent. In demanding titles, FSR is often required to achieve acceptable frame rates, and even then, performance can falter in graphically intensive or multiplayer environments. This highlights the importance of balancing hardware capabilities with software optimizations to meet the expectations of modern gamers. Ryzen Z2 Extreme Docked Mode Gaming Performance Watch this video on YouTube. Discover other guides from our vast content that could be of interest on AMD Ryzen Z2 Extreme. Thermal and Power Management: Navigating Constraints Thermal and power management play a critical role in the Z2 Extreme's overall performance. The chip operates at a base TDP of 35W, with the ability to boost up to 48W for short bursts. To explore its full potential, custom cooling solutions, including thermoelectric coolers, were tested to handle up to 60W TDP. Despite these efforts, the APU encounters significant thermal constraints beyond 60W, limiting its ability to sustain higher power levels. Without advanced cooling solutions, the chip's performance remains capped, particularly during prolonged high-power usage. This highlights the importance of effective thermal management in unlocking the full capabilities of the Z2 Extreme. For users seeking to maximize performance, investing in robust cooling systems may be essential. Gaming Benchmarks: Performance with Conditions Industry-standard benchmarks such as Geekbench 6 and 3DMark Time Spy reveal the Z2 Extreme's potential, particularly in multi-core workloads. In gaming benchmarks, the APU demonstrates improvements in titles like Cyberpunk 2077, Forza Horizon 5, and Spider-Man 2 when paired with FSR settings. Frame generation technologies, especially FSR 3.1, play a pivotal role in enhancing gameplay by delivering smoother frame rates and improved visual fidelity. However, the chip's performance remains inconsistent in graphically demanding scenarios without frame generation. This variability underscores the importance of game-specific optimizations and highlights the need for further software refinement to fully realize the APU's potential. Gamers relying on the Z2 Extreme may need to adjust settings or enable upscaling technologies to achieve optimal performance in more demanding titles. Comparison with the Z1 Extreme: Incremental Gains When compared to its predecessor, the Z1 Extreme, the Ryzen Z2 Extreme offers only marginal improvements. The Z1 benefits from more mature driver support, which contributes to its consistent performance across a variety of scenarios. In contrast, the Z2's performance is hindered by the need for further driver optimizations and software updates. This comparison highlights the critical role of software in maximizing hardware capabilities. While the Z2 Extreme introduces new features and incremental performance gains, its potential remains partially untapped due to these software limitations. For users considering an upgrade from the Z1 Extreme, the benefits of the Z2 may not yet justify the transition, particularly if driver support remains underdeveloped. Future Potential: Unlocking New Possibilities The Ryzen Z2 Extreme holds significant promise for future advancements. As developers refine driver support and address its thermal and power limitations, the APU's performance is expected to improve. Continued testing and optimization will be crucial in unlocking its full potential and delivering a more consistent gaming experience. Looking ahead, advancements in cooling technologies and software updates could position the Z2 Extreme as a more compelling choice for gamers seeking high performance in compact systems. For now, it represents a step forward in APU technology, offering a glimpse into the future of gaming hardware. With further refinements, the Z2 Extreme could become a standout option in the competitive gaming market. Media Credit: ETA PRIME Filed Under: Gadgets News, Gaming News, Hardware Latest Geeky Gadgets Deals Disclosure: Some of our articles include affiliate links. If you buy something through one of these links, Geeky Gadgets may earn an affiliate commission. Learn about our Disclosure Policy.
Int'l Business Times
7 days ago
- Business
- Int'l Business Times
Apu Is Now Live for Trading on Hyperliquid
Helsinki, Finland, August 4th, 2025, Chainwire Apu Apustaja ($APU), a cross-chain memecoin, has announced that its native token is now available for spot trading on Hyperliquid, a leading fully on-chain orderbook exchange. Hyperliquid currently facilitates billions in daily trading volume and manages over $7 billion in total value locked (TVL). The addition of APU marks the first memecoin from 'Murad's List' to be bridged directly from Ethereum to the Hyperliquid ecosystem, utilizing LayerZero's cross-chain messaging infrastructure. Technical Milestone and Cross-Chain Expansion Unlike synthetic assets or wrapped versions, the APU token maintains its native supply integrity through a direct Ethereum-to-Hyperliquid bridge. This deployment introduces spot trading immediately, without the need for a perpetual-only beta phase. APU is now available natively on Ethereum, Solana, Base, and Hyperliquid. FlowDesk, alongside automated arbitrage systems and ecosystem participants, will help maintain price parity across chains. This integration places APU within a high-performance trading environment built to support 100,000 transactions per second and designed for institutional-grade capital routing. Background on Hyperliquid Hyperliquid is an on-chain orderbook protocol that offers centralized exchange-like functionality while preserving the transparency of decentralized finance (DeFi). Its infrastructure is optimized for high throughput, low latency, and deep liquidity aggregation. The platform has become an increasingly prominent venue for active crypto traders, with a focus on speed, capital efficiency, and transparency. Deployment Timeline and Operations The listing was coordinated by Alexander Levin Jr., recently appointed Director of Operations at Apu Apustaja. Under his oversight, the Ethereum-to-Hyperliquid deployment was completed in under three weeks streamlining cross-chain migration and consolidating key stakeholders. This effort followed extended delays prior to his involvement and is part of a broader operational overhaul within the APU ecosystem. Quote from APU Operations "This deployment represents a pivotal step in expanding APU's accessibility to advanced trading platforms,' said Alexander Levin Jr., Director of Operations at Apu Apustaja. 'Hyperliquid's infrastructure offers the performance and transparency we were looking for, and the integration process through LayerZero was executed with precision and speed.' About Apu Apustaja ($APU) Apu Apustaja ($APU) is a decentralized memecoin project originally launched on Ethereum. Known for its grassroots growth, cross-chain expansion, and cultural resonance within crypto communities, APU aims to build a multi-chain ecosystem driven by community participation and interoperable infrastructure. Website: Telegram: X: Contact Apu Apustaja contact@
Business Insider
7 days ago
- Business
- Business Insider
Apu Is Now Live for Trading on Hyperliquid
Apu Apustaja ($APU), a cross-chain memecoin, has announced that its native token is now available for spot trading on Hyperliquid, a leading fully on-chain orderbook exchange. Hyperliquid currently facilitates billions in daily trading volume and manages over $7 billion in total value locked (TVL). The addition of APU marks the first memecoin from 'Murad's List' to be bridged directly from Ethereum to the Hyperliquid ecosystem, utilizing LayerZero's cross-chain messaging infrastructure. Technical Milestone and Cross-Chain Expansion Unlike synthetic assets or wrapped versions, the APU token maintains its native supply integrity through a direct Ethereum-to-Hyperliquid bridge. This deployment introduces spot trading immediately, without the need for a perpetual-only beta phase. APU is now available natively on Ethereum, Solana, Base, and Hyperliquid. FlowDesk, alongside automated arbitrage systems and ecosystem participants, will help maintain price parity across chains. This integration places APU within a high-performance trading environment built to support 100,000 transactions per second and designed for institutional-grade capital routing. Background on Hyperliquid Hyperliquid is an on-chain orderbook protocol that offers centralized exchange-like functionality while preserving the transparency of decentralized finance (DeFi). Its infrastructure is optimized for high throughput, low latency, and deep liquidity aggregation. The platform has become an increasingly prominent venue for active crypto traders, with a focus on speed, capital efficiency, and transparency. Deployment Timeline and Operations The listing was coordinated by Alexander Levin Jr., recently appointed Director of Operations at Apu Apustaja. Under his oversight, the Ethereum-to-Hyperliquid deployment was completed in under three weeks streamlining cross-chain migration and consolidating key stakeholders. This effort followed extended delays prior to his involvement and is part of a broader operational overhaul within the APU ecosystem. Quote from APU Operations "This deployment represents a pivotal step in expanding APU's accessibility to advanced trading platforms,' said Alexander Levin Jr., Director of Operations at Apu Apustaja. 'Hyperliquid's infrastructure offers the performance and transparency we were looking for, and the integration process through LayerZero was executed with precision and speed.' About Apu Apustaja ($APU) Apu Apustaja ($APU) is a decentralized memecoin project originally launched on Ethereum. Known for its grassroots growth, cross-chain expansion, and cultural resonance within crypto communities, APU aims to build a multi-chain ecosystem driven by community participation and interoperable infrastructure. Contact Apu Apustaja
Time of India
22-07-2025
- Time of India
Auxiliary power unit of Air India Airbus catches fire at Delhi airport, all flyers safe
New Delhi: The auxiliary power unit (APU) of an Air India Airbus A321 (TV-TVG), located in the tail section, caught fire at Delhi's Indira Gandhi International Airport when passengers were disembarking after its arrival from Hong Kong on Tuesday. Tired of too many ads? go ad free now The aircraft, which had around 170 people on board, was damaged, but the passengers and crew were unhurt. The airline reported the incident to regulator Directorate General of Civil Aviation. Sources say this could be a maintenance issue. An AI spokesperson said, "Flight AI 315, operating from Hong Kong to Delhi on July 22, 2025, experienced an APU fire shortly after it landed and parked at the gate. The incident occurred while passengers began disembarking, and the APU was automatically shut down as per system design. There was some damage to the aircraft; however, passengers and crew members disembarked normally and are safe. The aircraft has been grounded for further investigations, and the regulator has been duly notified. " According to aviation website Skybrary, APU allows an aircraft to operate autonomously without reliance on ground support equipment such as a ground power unit, external airconditioning unit or a high-pressure air start cart. "APU is a small jet engine, which is normally located in the tail cone of the aircraft, but, in some cases, is located in an engine nacelle or in the wheel well. APU can be started utilising only the aircraft battery(s) and, once running, will provide electrical power to aircraft systems as well as bleed air for AC and for engine start," the website says. There have been instances of APU failure or fire both on the ground and in flight globally. In June 2016, the cabin of a fully loaded Airbus A330 of a foreign airline on the ground at London's Heathrow Airport was engulfed with smoke, and an emergency evacuation was initiated. Investigation found that the smoke was caused when an APU seal failed and hot oil entered the bleed air supply. In July 2013, passengers boarding an Air France Boeing 777-300 at Paris CDG felt a burning smell, followed by thin smoke in the cabin. The aircraft was evacuated.
