ARM Delivers the Internet Everywhere With Most Power-Efficient and Cost-Effective Multicore Processor

Processor Reinforces Clear Leadership Position in Highest-Volume and Highest-Value Connected Consumer, Embedded and Industrial Applications

CAMBRIDGE, England — (BUSINESS WIRE) — October 21, 2009 — ARM [(LSE: ARM); (Nasdaq: ARMH)] today announced the launch of the ARM® Cortex™-A5 MPCore™ processor – the smallest, lowest power ARM multicore processor capable of delivering the Internet to the widest possible range of devices, from ultra low cost handsets, feature phones and smart mobile devices to pervasive embedded, consumer and industrial devices. Available as an extremely area- and power-efficient uniprocessor or up to a 4x multicore processor, the Cortex-A5 processor unleashes the outstanding performance and power scalability required for the compelling usage scenarios demanded by each of these markets. This extraordinary combination of performance, functionality and efficiency reinforces ARM’s clear leadership position in the highest-value and highest-volume application segments.

The Cortex-A5 uniprocessor provides a high-value migration path for the large number of existing ARM926EJ-S™ and ARM1176JZ-S™ processor licensees. By delivering better performance than the ARM1176JZ-S processor within the raw power and silicon area footprint of the ARM926EJ-S processor, the Cortex-A5 uniprocessor offers nearly twice the power-efficiency relative to these earlier and extremely popular predecessors. This increases the quality of the user experience while reducing costs and end-user device size.

This performance is further enhanced by the Cortex-A5 multicore processor which utilizes the successful ARM MPCore technology. The widely-adopted ARM MPCore technology increases performance scalability and control over power consumption to exceed the performance of today’s comparable high-performance devices while remaining within the tight mobile power constraints. To date, ARM MPCore processors have been licensed by more than 15 leading semiconductor companies including Broadcom, NEC Electronics, NVIDIA, Renesas Technology, Toshiba and Sarnoff Corporation, and have been implemented in numerous applications on the market today. This technology greatly expands the addressable application spectrum while enabling new and more efficient modes of operation.

The Cortex-A5 processor includes TrustZone® security technology along with a NEON™ multimedia processing engine first introduced with the Cortex-A8 processor. NEON technology is a 128-bit SIMD (Single Instruction, Multiple Data) architecture extension for the Cortex-A series processors, providing flexible and compelling acceleration for intensive multimedia applications.

The Cortex-A5 processor is fully application compatible with the Cortex-A8 and Cortex-A9 processors. This enables immediate access to an established developer and software ecosystem including Android, Adobe Flash, Java Platform Standard Edition (Java SE), JavaFX, Linux, Microsoft Windows Embedded, Symbian and Ubuntu, along with more than 600 ARM Connected Community™ members.

Speaking at the 18th World Wide Web conference earlier this year, Google’s vice president and chief internet evangelist and one of the founders of the Internet, Vinton “Vint” Cerf predicted: “More people in the world will have their first interaction with the Internet with mobile than with laptop.” He continued: “We will have more Internet, larger numbers of users, more mobile access, more speed, more things online and more appliances we can control over the Internet.”

“The Cortex-A5 processor signals a significant acceleration in the future of Internet connectivity,” said Eric Schorn, vice president of marketing, Processor Division, ARM. “Internet accessibility has long been a critical social opportunity and with the launch of the Cortex-A5 processor we are providing the pervasive Internet with unprecedented power-efficiency and cost-effectiveness. The Cortex-A5 processor scales from ultra low cost handsets and lifestyle Internet devices all the way to consumer, embedded and industrial devices – anything that can be connected to the Internet. We are truly delivering the Internet everywhere.”

“The launch of the Cortex-A5 processor reinforces ARM’s leadership in innovation and technology, and sets a new standard for cost-effectiveness and power-efficiency in entry-level mobile devices,” said Nathan Brookwood, research fellow at Insight 64. “The performance of the Cortex-A5 processor, when combined with Adobe’s recently-announced support for Cortex-A profile processors in Flash Player 10.1, will allow users of ARM processor-based systems to view the same internet video content previously accessible only to users of x86-based systems.”

The processor has been licensed by numerous ARM Partners including Samsung, a global leader in semiconductor, telecommunication, digital media and digital convergence technologies.

“Samsung has enjoyed a strong partnership with ARM and has achieved considerable success utilizing ARM CPU cores in many of our industry leading System-On-Chip (SOC) products,” said Yiwan Wong, vice president, Strategic Marketing Team, System LSI Division, Samsung Electronics. “This new Cortex-A5 processor from ARM will allow us to further broaden the range of SOC products we can offer to our customers to address the needs of the expanding mobile device market space.”

Supporting Technology

The Cortex-A5 processor incorporates, and is supported by, a broad range of ARM technology to provide ARM Partners with a smooth path through the development, verification and production of full function, compelling devices while significantly reducing time-to-market.

The new processor is supported by the immediate availability of a High Performance Optimization Package of physical IP to enable leadership implementations in a 40nm process. This optimization package comprises ARM low leakage, high performance logic libraries featuring multi-channel design along with optimized memory instances engineered specifically for the Cortex-A5 processor architecture. The optimized package is available initially for the TSMC 40LP process and further performance benefits can be achieved through the use of multi-Vt and overdrive implementation techniques.

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