A better way to cloud: TI's new KeyStone multicore SoCs revitalize cloud applications, enabling new capabilities and a quantum leap in performance at significantly reduced power consumption
MUNICH --Nov.13, 2012 -- ELECTRONICA -- To most technologists, cloud computing is about applications, servers, storage and connectivity. To Texas Instruments Incorporated (TI) (NASDAQ: TXN) it means much more. Today, TI is unveiling a BETTER way to cloud with six new multicore System-on-Chips (SoCs). Based on its award winning KeyStone architecture, TI's SoCs are designed to revitalize cloud computing, inject new verve and excitement into pivotal infrastructure systems and, despite their feature rich specifications and superior performance, actually reduce energy consumption.
To view the multimedia assets associated with this release, please click: http://www.multivu.com/mnr/54044-texas-instruments-keystone-multicore-socs-revitalize-cloud-applications
To TI, a BETTER way to cloud means:
- Safer communities thanks to enhanced weather modeling;
- Higher returns from time sensitive financial analysis;
- Improved productivity and safety in energy exploration;
- Faster commuting on safer highways in safer cars;
- Exceptional video on any screen, anywhere, any time;
- More productive and environmentally friendly factories; and
- An overall reduction in energy consumption for a greener planet.
TI's new KeyStone multicore SoCs are enabling this – and much more. These 28-nm devices integrate TI's fixed-and floating-point TMS320C66x digital signal processor (DSP) generation cores – yielding the best performance per watt ratio in the DSP industry – with multiple ARM® Cortex™-A15 MPCore™ processors – delivering unprecedented processing capability combined with low power consumption – facilitating the development of a wide-range of infrastructure applications that can enable more efficient cloud experiences. The unique combination of Cortex-A15 processors and C66x DSP cores, with built-in packet processing and Ethernet switching, is designed to efficiently offload and enhance the cloud's first generation general purpose servers; servers that struggle with big data applications like high performance computing and video processing.
"Using multicore DSPs in a cloud environment enables significant performance and operational advantages with accelerated compute intensive cloud applications," said Rob Sherrard, VP of Service Delivery, Nimbix. "When selecting DSP technology for our accelerated cloud compute environment, TI's KeyStone multicore SoCs were the obvious choice. TI's multicore software enables easy integration for a variety of high performance cloud workloads like video, imaging, analytics and computing and we look forward to working with TI to help bring significant OPEX savings to high performance compute users."
TI's six new high-performance SoCs include the 66AK2E02, 66AK2E05, 66AK2H06, 66AK2H12, AM5K2E02 and AM5K2E04, all based on the KeyStone multicore architecture. With KeyStone's low latency high bandwidth multicore shared memory controller (MSMC), these new SoCs yield 50 percent higher memory throughput when compared to other RISC-based SoCs. Together, these processing elements, with the integration of security processing, networking and switching, reduce system cost and power consumption, allowing developers to support the development of more cost-efficient, green applications and workloads, including high performance computing, video delivery and media and image processing. With the matchless combination TI has integrated into its newest multicore SoCs, developers of media and image processing applications will also create highly dense media solutions.
KeyStone Multicore SoC | Features | Applications |
66AK2E02
66AK2E05 | 1 Cortex-A15 processor 1 C66x DSP
4 Cortex-A15 processors 1 C66x DSP | Enterprise video, IP cameras (IPNC), traffic systems (ITS), video analytics, industrial imaging, voice gateways, portable medical devices |
66AK2H06
66AK2H12
| 2 Cortex-A15 processors 4 C66x DSPs
4 Cortex-A15 processors 8 C66x DSPs | High performance computing, media processing, video conferencing, off-line image processing & analytics, video recorders (DVR/NVR), gaming, virtual desktop infrastructure, medical imaging |
AM5K2E02
AM5K2E04 | 2 Cortex-A15 processors
4 Cortex-A15 processors
| Cloud infrastructure, routers, switches, networking control plane, wireless transport, radio network control, industrial sensor control |
"Visionary and innovative are two words that come to mind when working with TI's KeyStone devices," said Joe Ye, CEO, CyWee. "Our goal is to offer solutions that merge the digital and physical worlds, and with TI's new SoCs we are one step closer to making this a reality by pushing state-of-the-art video to virtualized server environments. Our collaboration with TI should enable developers to deliver richer multimedia experiences in a variety of cloud-based markets, including cloud gaming, virtual office, video conferencing and remote education."
Simplified development with complete tools and support
TI continues to ease development with its scalable KeyStone architecture, comprehensive software platform and low-cost tools. In the past two years, TI has developed over 20 software compatible multicore devices, including variations of DSP-based solutions, ARM-based solutions and hybrid solutions with both DSP and ARM-based processing, all based on two generations of the KeyStone architecture. With compatible platforms across TI's multicore DSPs and SoCs, customers can more easily design integrated, power and cost-efficient products for high-performance markets from a range of devices, starting at just $30 and operating at a clock rate of 850MHz all the way to 15GHz of total processing power.
TI is also making it easier for developers to quickly get started with its KeyStone multicore solutions by offering easy-to-use, evaluation modules (EVMs) for less than $1K, reducing developers' programming burdens and speeding development time with a robust ecosystem of multicore tools and software.
In addition, TI's Design Network features a worldwide community of respected and well established companies offering products and services that support TI multicore solutions. Companies offering supporting solutions to TI's newest KeyStone-based multicore SoCs include 3L Ltd., 6WIND, Advantech, Aricent, Azcom Technology, Canonical, CriticalBlue Enea, Ittiam Systems, Mentor Graphics, mimoOn, MontaVista Software, Nash Technologies, PolyCore Software and Wind River.
Availability and pricing
TI's 66AK2Hx SoCs are currently available for sampling, with broader device availability in 1Q13 and EVM availability in 2Q13. AM5K2Ex and 66AK2Ex samples and EVMs will be available in the second half of 2013. Pricing for these devices will start at $49 for 1 KU.
Visit TI @ Electronica 2012
While at Electronica, visit TI at Booth 420 (Hall A4) to learn more about the latest embedded processing and analog news, and to check out a broad range of TI-based demos. For more information please visit www.ti.com/electronica2012.
Do MORE with MULTICORE:
- Learn more about TI's newest KeyStone SoCs
- Read the "better way to cloud" white paper
- Watch the product overview video and most recent Ask The Experts videos
- View more cloud-based experiences
- Learn more about TI multicore
- Engage with engineers and TI experts on the TI E2E™ Community and Multicore Mix blog
About TI's KeyStone multicore architecture
TI's KeyStone multicore architecture is the platform for true multicore innovation, offering developers a robust portfolio of high performance, low-power multicore devices. Unleashing breakthrough performance, the KeyStone architecture is the foundation upon which TI's new TMS320C66x DSP generation was developed. KeyStone differs from any other multicore architecture as it has the capacity to provide full processing capability to every core in a multicore device. KeyStone-based devices are optimized for high performance markets including wireless base stations, mission critical, test and automation, medical imaging and high performance computing. Learn more at www.ti.com/multicore.
About the Texas Instruments ARM® Processor Portfolio
TI's extensive ARM processor portfolio offers optimized silicon, software and development tools for industries such as automotive, industrial, cloud infrastructure, computing, healthcare, education, retail and home and building automation. With more than 500 ARM products that start at $1 and scale up to 5 GHz in performance, TI has shipped more than seven billion ARM-based processors since 1993, including ARM Cortex-A, Cortex-R and Cortex-M foundations. For more information, visit www.ti.com/arm.
About Texas Instruments
Texas Instruments semiconductor innovations help 90,000 customers unlock the possibilities of the world as it could be – smarter, safer, greener, healthier and more fun. Our commitment to building a better future is ingrained in everything we do – from the responsible manufacturing of our semiconductors, to caring for our employees, to giving back inside our communities. This is just the beginning of our story. Learn more at www.ti.com.
|
Related News
- mimoOn integrates LTE PHY software on Texas Instruments' new system-on-chips for small cell base stations
- Texas Instruments' new AM1810 Sitara ARM MPU, a certified single-chip PROFIBUS solution, reduces power consumption and cost by up to 30 percent for industrial applications
- CriticalBlue releases support for Texas Instruments' TMS320C66x multicore DSPs within Prism
- New multicore system-on-a-chip architecture from Texas Instruments to deliver 5X performance and simplified design for communications infrastructure equipment
- PMC-Sierra's New Multi-Service Processors Optimize Power and Performance for Network and Storage Applications; High Performance MIPS32 34K Core is Integrated in the MSP8110 and MSP8120 System-On-Chips
Breaking News
- Ubitium Debuts First Universal RISC-V Processor to Enable AI at No Additional Cost, as It Raises $3.7M
- TSMC drives A16, 3D process technology
- Frontgrade Gaisler Unveils GR716B, a New Standard in Space-Grade Microcontrollers
- Blueshift Memory launches BlueFive processor, accelerating computation by up to 50 times and saving up to 65% energy
- Eliyan Ports Industry's Highest Performing PHY to Samsung Foundry SF4X Process Node, Achieving up to 40 Gbps Bandwidth at Unprecedented Power Levels with UCIe-Compliant Chiplet Interconnect Technology
Most Popular
- Cadence Unveils Arm-Based System Chiplet
- CXL Fabless Startup Panmnesia Secures Over $60M in Series A Funding, Aiming to Lead the CXL Switch Silicon Chip and CXL IP
- Esperanto Technologies and NEC Cooperate on Initiative to Advance Next Generation RISC-V Chips and Software Solutions for HPC
- Eliyan Ports Industry's Highest Performing PHY to Samsung Foundry SF4X Process Node, Achieving up to 40 Gbps Bandwidth at Unprecedented Power Levels with UCIe-Compliant Chiplet Interconnect Technology
- Arteris Selected by GigaDevice for Development in Next-Generation Automotive SoC With Enhanced FuSa Standards
E-mail This Article | Printer-Friendly Page |