- Marvell Technology, Inc. | Essential technology, done right
Marvell silicon powers the foundations of AI: accelerated compute, connectivity, and storage infrastructure Bringing unmatched speed and performance to any cloud, Marvell is expanding the reach of AI
- Data infrastructure technology that keeps the world running - Marvell
Marvell tailors its technology to meet diverse compute requirements With the industry’s most advanced and comprehensive accelerated infrastructure portfolio of compute, connectivity and storage, Marvell is powering the AI era
- What Makes Marvell
Learn more about our purpose mission, our technology, our culture and our incredible global team in our ‘What Makes Marvell’ blog series
- Products | Delivering the industry’s broadest portfolio of . . . - Marvell
The industry’s most complete data infrastructure semiconductor portfolio Marvell offers a broad, innovative portfolio of data infrastructure semiconductor solutions spanning compute, networking, security and storage
- Marvell to Sell Automotive Ethernet Business to Infineon for $2. 5 . . .
The acquisition includes Marvell's Brightlane® Automotive Ethernet portfolio and related assets This transaction has been approved by Marvell's Board of Directors, and is expected to close within calendar year 2025, subject to customary closing conditions and regulatory approvals
- Careers | At Marvell, Your Future is Now - Life at Marvell
At Marvell, you have the ability to affect the arc of individual lives, lift the trajectory of entire industries, and fuel the transformative potential of tomorrow
- Marvell Newsroom | Press Releases - Marvell
Watch our special event to learn how Marvell silicon powers the accelerated compute, connectivity, networking, and storage infrastructure needed to expand the reach of AI
- Marvell Develops Industry’s First 2nm Custom SRAM for Next-Generation . . .
Combining advanced custom circuitry and software from Marvell with core SRAM and cutting-edge 2nm process technology, Marvell® custom SRAM delivers up to 6 gigabits of high-speed memory while significantly reducing memory power consumption and die area at comparable densities
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