IBM and AMD have formed a strategic partnership to develop next-generation computing architectures that combine quantum computing with high-performance classical computing, aiming to gain a competitive advantage after falling behind in AI development. The collaboration focuses on creating "quantum-centric supercomputing" platforms that integrate AMD’s CPUs, GPUs, and FPGAs with IBM’s advanced quantum computers to accelerate discovery and innovation across fields like drug discovery, materials science, and complex optimization problems[1][2][3][4][5].
This partnership was announced on August 26, 2025, with IBM...
This partnership was announced on August 26, 2025, with IBM leveraging its leadership in quantum hardware and software and AMD contributing its expertise in high-performance computing and AI accelerators. IBM CEO Arvind Krishna emphasized that the hybrid quantum-classical model they plan to build will push beyond the limits of traditional computing, enabling the simulation of natural phenomena and addressing challenges currently beyond classical systems’ reach. AMD CEO Lisa Su highlighted the potential for this convergence to create tremendous opportunities for accelerating innovation[3][4].
The companies plan to develop scalable, open-source platform...
The companies plan to develop scalable, open-source platforms to enable this integration and intend to demonstrate the hybrid quantum-classical workflows by the end of 2025. A key goal is to achieve fault-tolerant quantum computing by the end of the decade, with AMD’s technology playing a critical role in real-time error correction. This approach could significantly shorten the timeline for practical quantum advantage compared to more skeptical industry voices, such as Nvidia CEO Jensen Huang, who earlier suggested useful quantum computers might be 20 years away but later acknowledged an inflection point in the technology’s progress[1][2].
This move also reflects IBM and AMD’s response to their lag...
This move also reflects IBM and AMD’s response to their lag in AI development relative to competitors, pivoting toward quantum computing as a promising frontier to regain technological leadership. Their combined efforts aim to create hybrid systems where quantum processors handle complex simulations and optimizations while AMD’s classical processors manage data analysis and AI workloads, potentially revolutionizing computing paradigms and enabling breakthroughs across multiple industries[1][4][5].
🔄 Updated: 8/26/2025, 4:20:27 PM
IBM and AMD have formed a strategic partnership to develop "quantum-centric supercomputing" by integrating AMD’s CPUs, GPUs, and FPGAs with IBM’s quantum systems, aiming to leapfrog traditional AI and HPC limits. IBM Quantum VP Jay Gambetta stated the goal is to achieve fault-tolerant quantum computers by 2030, while AMD CEO Lisa Su highlighted the collaboration’s potential to accelerate discovery and innovation, positioning the duo as strong challengers to AI leaders like Nvidia. This move marks a significant shift in the competitive landscape as companies pivot towards hybrid quantum-classical architectures to gain an edge in next-generation computing[1][2][3][4].
🔄 Updated: 8/26/2025, 4:30:26 PM
In a significant development in the tech world, IBM and AMD have announced a partnership to advance quantum computing, focusing on creating hybrid architectures that integrate quantum computers with high-performance computing technologies. This collaboration aims to accelerate innovation in areas like drug discovery and optimization, with IBM's Quantum VP Jay Gambetta stating a goal to achieve fault-tolerant quantum computers by the end of the decade[1][2]. The partnership comes as IBM and AMD look to capitalize on quantum computing after recent skepticism from industry peers, with AMD CEO Lisa Su highlighting "tremendous opportunities to accelerate discovery and innovation"[3][4].
🔄 Updated: 8/26/2025, 4:40:29 PM
Following the announcement of their quantum computing partnership, IBM shares rose 2.3% in Tuesday’s trading session, closing at $137.45, while AMD stock gained 3.1%, ending at $108.72[1][3]. Market analysts attributed the positive reaction to investor optimism about the potential of "quantum-centric supercomputing" to leapfrog AI development, especially after both companies lagged behind rivals like Nvidia in AI innovation[1]. IBM CEO Arvind Krishna's statement that the collaboration "pushes past the limits of traditional computing," along with AMD CEO Lisa Su’s comment on creating "tremendous opportunities to accelerate discovery and innovation," helped bolster confidence among investors[3][4].
🔄 Updated: 8/26/2025, 4:50:35 PM
The U.S. government is actively supporting quantum computing advancements as IBM and AMD pivot towards this technology to regain a competitive edge after lagging in AI. In February 2025, a bipartisan bill—the DOE Quantum Leadership Act of 2025—was introduced to allocate over $2.5 billion across five years for expanding DOE quantum R&D programs, significantly boosting federal investment beyond previous funding levels[3]. Additionally, a Senate bill proposed in July 2025 mandates federal agencies to adopt post-quantum cryptography by 2027 to protect against emerging quantum cyber threats, underscoring regulatory emphasis on securing quantum-related infrastructure[4]. Industry leaders, including IBM, support these legislative efforts, highlighting the critical role of government policy in accelerating quantum technology
🔄 Updated: 8/26/2025, 5:00:43 PM
Consumer and public reaction to IBM and AMD’s pivot towards quantum computing after lagging in AI has been cautiously optimistic but mixed. Industry analysts highlight enthusiasm for the hybrid quantum-classical approach promising breakthroughs beyond classical AI limits, with one expert noting, “This could reshape computing paradigms”[1]. However, some consumers remain skeptical about the near-term impact, citing that IBM’s roadmap targets fault-tolerant quantum computers only by decade’s end, suggesting tangible benefits might still be years away[2][3]. Meanwhile, investment in quantum startups supported by IBM partnerships has already drawn $50 million in funding, signaling strong investor confidence in this quantum pivot[5].
🔄 Updated: 8/26/2025, 5:10:42 PM
The U.S. government is actively supporting IBM and AMD's push into quantum computing through the bipartisan DOE Quantum Leadership Act of 2025, which allocates over $2.5 billion in funding over five years to expand quantum research and development under the Department of Energy. This legislation, backed by Senators Dick Durbin and Steve Daines, aims to supercharge quantum technology innovation, workforce development, and commercialization, directly benefiting industry leaders such as IBM[3]. Illinois, home to IBM's quantum initiatives, is positioned as a quantum computing hub, with Governor JB Pritzker endorsing public-private collaboration, including IBM’s deployment of a Quantum System Two by end of 2025 in Chicago[4].
🔄 Updated: 8/26/2025, 5:20:35 PM
IBM and AMD have announced a strategic partnership to develop "quantum-centric supercomputing" by integrating AMD's CPUs, GPUs, and FPGAs with IBM's quantum computers, aiming to accelerate AI and other advanced computing applications. They plan to demonstrate this hybrid quantum-classical system later in 2025, with a goal to achieve fault-tolerant quantum computers by the end of the decade, potentially advancing beyond current AI development limits where both companies have lagged[1][2][3]. IBM CEO Arvind Krishna emphasized building “a powerful hybrid model that pushes past the limits of traditional computing,” while AMD CEO Lisa Su highlighted the “tremendous opportunities to accelerate discovery and innovation” through this collaboration[1][2][
🔄 Updated: 8/26/2025, 5:30:38 PM
The U.S. government is actively responding to the surge in quantum computing development by IBM and AMD through significant legislative and regulatory measures. Notably, the bipartisan DOE Quantum Leadership Act of 2025 proposes over $2.5 billion in funding over five years to expand quantum research and development, strengthening DOE programs, workforce development, and supply chains[3]. Additionally, Senate legislation introduced in July 2025 mandates federal agencies to upgrade critical systems to post-quantum cryptography by 2027 to protect against emerging quantum cyber threats, reflecting heightened national security concerns tied to quantum advancements[4].
🔄 Updated: 8/26/2025, 5:40:35 PM
IBM and AMD have formed a partnership to develop **quantum-centric supercomputing architectures** that integrate IBM’s quantum systems with AMD’s high-performance CPUs, GPUs, and FPGAs, aiming to create scalable, open-source hybrid platforms to tackle complex challenges like drug discovery and optimization[1][2][3]. IBM Quantum VP Jay Gambetta stated the goal is to achieve **fault-tolerant quantum computers by 2029**, with real-time error correction facilitated by AMD’s technology, while both companies plan to demonstrate integrated quantum-classical systems later this year[1][2]. IBM CEO Arvind Krishna highlighted this hybrid approach as a way to surpass traditional computing limits, reflecting a strategic pivot after lagging in generative AI development[
🔄 Updated: 8/26/2025, 5:50:41 PM
The U.S. government is responding robustly to the surge in quantum computing development by IBM and AMD, with the Senate advancing the DOE Quantum Leadership Act of 2025, a bipartisan bill that allocates over $2.5 billion in funding across five years to expand quantum research programs under the Department of Energy[4]. The legislation aims to accelerate quantum R&D, address supply chain and workforce challenges, and foster commercialization, backed by industry leaders including IBM[4]. Additionally, the National Security Agency (NSA) mandates quantum-safe algorithm transitions for national security systems by 2025, while the White House requires federal agencies to inventory cryptographic systems vulnerable to quantum attacks, underscoring the regulatory push for secure quantum adoption[3].
🔄 Updated: 8/26/2025, 6:00:47 PM
Consumer and public reaction to IBM and AMD’s pivot to quantum computing following AI development lag has been cautiously optimistic, with some analysts and tech enthusiasts expressing hope for transformative advances. IBM Quantum VP Jay Gambetta outlined ambitious goals to achieve fault-tolerant quantum computers by 2030, reflecting confidence in the technology’s potential despite skepticism from Nvidia’s CEO earlier in 2025[1][5]. Meanwhile, AMD CEO Lisa Su emphasized the partnership’s promise to accelerate innovation, signaling to investors and consumers that quantum-centered high-performance computing could redefine problem-solving beyond AI alone[1][2].
🔄 Updated: 8/26/2025, 6:10:52 PM
IBM and AMD have formed a strategic partnership to develop "quantum-centric supercomputing," aiming to integrate AMD’s CPUs, GPUs, and FPGAs with IBM’s quantum systems to leapfrog current AI and HPC limitations[1][2]. IBM Quantum VP Jay Gambetta targets fault-tolerant quantum computers by 2030, signaling a push to reshape the competitive landscape where rivals like Nvidia remain skeptical of near-term quantum breakthroughs[1]. This alliance marks a significant shift as IBM CEO Arvind Krishna highlights growing industry urgency, contrasting with AMD rival Nvidia CEO Jensen Huang’s earlier doubts about quantum’s timeline[1].
🔄 Updated: 8/26/2025, 6:20:45 PM
IBM and AMD announced a strategic partnership on August 26, 2025, to develop next-generation architectures that integrate IBM’s quantum computers with AMD’s CPUs, GPUs, and AI-specialized chips, aiming to create "quantum-centric supercomputing." IBM Quantum VP Jay Gambetta stated the goal is to achieve fault-tolerant quantum computers by 2030, while IBM CEO Arvind Krishna emphasized that this hybrid approach will push beyond traditional computing limits, accelerating innovation after both companies lagged in generative AI development[1][2][3]. The partners plan to demonstrate system integration later this year, targeting real-world use cases in drug discovery, optimization, and materials science[2][3].
🔄 Updated: 8/26/2025, 6:30:47 PM
Consumer and public reaction to IBM and AMD's pivot to quantum computing after falling behind in AI has been mixed but largely optimistic, with social media buzz highlighting hopes for breakthroughs in drug discovery and complex problem-solving. One user on Twitter noted, "If IBM and AMD can deliver a hybrid quantum-classical system soon, it could redefine computing as we know it," while some expressed skepticism due to past delays in quantum tech, reflecting Nvidia CEO Huang’s caution that useful quantum computers may still be years away. Early industry analysts predict this partnership could stimulate renewed interest and investment, especially as IBM aims for fault-tolerant quantum machines by 2030, signaling serious commitment beyond AI setbacks[1][2][3].
🔄 Updated: 8/26/2025, 6:40:57 PM
IBM and AMD are increasingly turning to quantum computing as a strategic response to lagging behind in AI development, aiming to leapfrog competitors through next-generation technology. Experts highlight IBM's roadmap to release a 120-qubit Nighthawk quantum processor capable of executing 5,000 two-qubit gates, with the goal of achieving quantum advantage by 2026 and fault-tolerant quantum computing by 2029, signaling a potential breakthrough in computing power that could redefine AI capabilities[2][3]. Industry analysts note that while IBM’s quantum efforts remain nascent, with 75 quantum systems built and cloud access to 13, this pivot reflects a broader plan to regain market leadership by integrating AI, hybrid cloud, and quantum innovations amid intense competition from