Toshiba Develops High Performance Microprocessor Core
'MeP-h1'is the World's First 1GHz Configurable Processor
Tokyo --18 August, 2005 -- Toshiba Corporation today announced that it has developed a new high-end processor core, MeP-h1, the first configurable microprocessor to achieve a 1GHz clock speed. The MeP-h1 is based on Toshiba's "Media embedded Processor" (MeP) architecture for digital consumer and other high performance SoCs. It gives designers the flexibility to customize processors at the design stage, including the ability to change processor configurations and add custom instructions to satisfy application requirements.
The performance of the new core was boosted by increasing the number of instruction execution pipeline stages to nine, from five in Toshiba's previous processor core. The new core is also optimized for design of high-performance customized processors by integration of a reorder buffer circuit that manages and shortens waiting cycles for user extension instructions. The present implementation of the core was manufactured with 65nanometer (nm) process technology, and that too contributed to achieving the 1GHz clock speed. The new configurable processor core is designed with register transfer level description (RTL) and can be manufactured with other process technology, including 90nm technology.
The details of the processor and its technology were announced at HOT CHIPS17, the international processor conference that opened at Stanford University on August 14.
Development background:
The market for digital equipment supporting images, audio and communications is growing fast. However, the required performance and type of data processing in system LSI differs by application, and the overall volume of handled data is rapidly increasing. As a result, there is growing demand for customizable high-performance embedded processors. Toshiba will continue to develop MeP technology and to apply high-end gigaherz-level MeP cores to SoC for digital products.
Outline of MeP:
MeP is a configurable processor that allows designers to customize processor configurations, including custom instructions and embedded memory capacity, in about 1 million different combinations. The processor features small chip size, low power consumption and high-speed processing. It is based on a 32-bit RISC processor, appropriate for digital media products that require processing of large volume of image and audio data, such as digital TVs and DVD recorders.
MeP main features:
1. | High-speed media processing (image and audio) |
2. | Customizable configuration, including embedded-memory capacity |
3. | Extensibility of hardware allowing easy addition of functions These features contribute to shorter development times for SoC that integrate complicated functions, reducing the development time for digital products. |
Toshiba uses MeP in its own products and also licenses the technology to third parties that require flexibility in circuit design. Users who want to apply MeP to their own products can download MeP design data and related information from Toshiba's dedicated website, http://www.MePcore.com/, after registration and completing a license agreement.
Roadmap of MeP:
Toshiba developed its first MeP core, MeP-c1 which had a 5-stage pipeline structure in 2001. Toshiba expanded MeP functionality, creating its line of c-series products, with the MeP-c2 and MeP-c3. The new core announced today, MeP-h1, introduces a 9-stage pipeline structure as the first core in the new high-performance h series. Toshiba is also developing MeP-c4, an enhanced c-series core
|
Related News
- Renesas Develops Embedded MRAM Macro that Achieves over 200MHz Fast Random-Read Access and a 10.4 MB/s Fast Write Throughput for High Performance MCUs
- M31 Technology Develops SRAM Compiler IP on TSMC's 28nm Embedded Flash Process Technology Providing High Performance and Low Power Solutions
- Toshiba Unveils 130nm FFSA Development Platform Featuring High Performance, Low Power and Low Cost Structured Array
- TOSHIBA Develops High Speed NANO FLASH-100 Flash Memory for ARM Core Based Microcontrollers
- VaST Develops High Performance Virtual Processor Model for Freescale’s e200z6 'Power ArchitectureTM' Core
Breaking News
- Jury is out in the Arm vs Qualcomm trial
- Ceva Seeks To Exploit Synergies in Portfolio with Nano NPU
- Synopsys Responds to U.K. Competition and Markets Authority's Phase 1 Announcement Regarding Ansys Acquisition
- Alphawave Semi Scales UCIe™ to 64 Gbps Enabling >20 Tbps/mm Bandwidth Density for Die-to-Die Chiplet Connectivity
- RaiderChip Hardware NPU adds Falcon-3 LLM to its supported AI models
Most Popular
E-mail This Article | Printer-Friendly Page |