Analysis

Smallest licensable 32-bit processor core from Tensilica

5th November 2007
ES Admin
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Tensilica has introduced the industry’s smallest licensable 32-bit processor core based on an industry-standard architecture. The new Diamond Standard 106Micro core takes up only 0.26 mm2 in a 130-nm G process and only 0.13 mm2 in a 90-nm G process, which makes it smaller than the ARM7 or Cortex-M3 cores, yet at 1.22 Dhrystone MIPS/MHz, it delivers higher performance than the ARM9E cores.
The low-power Diamond Standard 106Micro is designed for simple controller applications in SOC (system-on-chip) designs, and an ideal choice for designers migrating from 8-bit and 16-bit microcontrollers to 32-bit processors. All Diamond Standard processors are supported by an optimized set of Diamond Standard software tools and a wide range of industry infrastructure partners, who provide support with operating systems, design services, hardware prototyping and emulation, libraries and memories, EDA tools, and peripherals.

“In many SOC applications, the smallest possible microcontroller is all that’s needed to coordinate the various tasks being performed on the chip,” explained Chris Rowen, Tensilica’s president and CEO. “And often in devices that already have one or more other heavyweight applications processors on chip, one or more subsystems need a low-power, low-cost, localized controller. By leveraging our core configurable processor technology, we were able to quickly create this new core with the smallest footprint in the industry.”

The Diamond Standard 106Micro is an extremely low power, cache-less controller. It employs a 5-stage pipeline so it can easily achieve 250 MHz in 130G process and up to 400 MHz in 90G process technology. By modelessly switching between 24- and 16-bit narrow instructions, it achieves a higher code density than other 32/16-bit architectures.

While it’s smaller and more area-efficient than other 32-bit commercial microcontrollers, the Diamond 106Micro is a fully equipped controller. Using a traditional Harvard architecture, it features separate local, tightly coupled, instruction and data RAMs to eliminate memory contention and provide fast performance on performance-critical code and interrupt handling routines. RAM size is user selectable up to 128K bytes. It features a 32-bit iterative multiplier for arithmetic operations, a trace port for debug, an integrated timer, and a rich interrupt architecture with 15 interrupts at two priority levels for flexible and fast interrupt handling.

The Diamond 106Micro offers performance comparable to other vendors’ much larger 32-bit CPUs in a smaller footprint. For example, the Diamond 106Micro core offers ARM9-level performance and capabilities in a smaller footprint than the ARM7 or Cortex M3 controllers.

All Tensilica Diamond Series cores are available with either the native high-performance Tensilica PIF processor interface, suitable for bridging to any on-chip bus (e.g. OCP, CoreConnect) or with an AMBA AHB-Lite interface. SOC designers therefore can choose any common on-chip bus and leverage existing infrastructure and peripheral component sets.

Tensilica’s entire Diamond Standard processor family is based on its proven Xtensa configurable and extensible processor architecture, used in over 250 chip designs by over 120 licensees. Tensilica’s engineers used the same Xtensa processor generator technology as its Xtensa processor customers use to create these optimized standard configurations. Tensilica’s automated processor generator technology completely verified the configurations and produced the matching software tool chain.

By using the proven Xtensa architecture, customers can be reassured that, if they like one of the Diamond Standard processors but would prefer a more tailored processor solution for their application, they can upgrade to an Xtensa configurable processor and maintain full software compatibility.

Many ASIC customers prefer the simplicity of purchasing from their ASIC or foundry silicon provider a processor core as part of the NRE (Non-Recurring Engineering) expense of their SOC design. Fujitsu Microelectronics America, Inc. and NEC Electronics America, Inc. provide direct licensing of the Diamond Standard processors to their ASIC customers. And a network of Tensilica Authorized Design Centers around the world – including leading companies like AFTek, D-Clue, eInfochips, Genesis Technology, HD Lab, IBEX, Magellan Discovery Corp., Tallika, Tata Elxsi, and Wipro – can provide a Diamond Standard core as part of turnkey design services.

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