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Processor

Cores Overview

MIPS32® 1004K™ Core Family- The industry's first multi-threaded multiprocessor IP core. Incorporating multi-threading in each core in a coherent multi-core architecture enables the 1004K™ multiprocessor to surpass the performance of multi-core systems based on single-threaded processor cores.

MIPS32® 74K™ Core Family The first synthesizable 32-bit processors to achieve 1+ GHz in a 65nm GP process using generic standard cells and EDA flows. The 74K cores feature a revolutionary super-scalar embedded microarchitecture with a limited dual-issue pipeline and out-of-order execution for optimal performance and efficiency.

MIPS32® 34K™ Family - The first MIPS® cores to exploit multi-threading for embedded applications, the 34K family delivers significant gains in system performance and cost savings, with a very modest increase in die size.

MIPS32® 24K® Family - The low-power 24K cores offer 660 MHz performance in a 90 nanometer G process, minimizing design time and reducing product costs. They are ideal for home entertainment applications as well as portable, battery-powered consumer devices.

MIPS32® 24KE™ Family - The high performance 24KE cores incorporates efficient DSP capability while significantly reducing overall SoC die area, cost, and power consumption and improving signal processing performance.

MIPS32® 4K® Family - The 4K cores are designed for system-on-chip (SoC) applications that require an easy-to-use, and cost-efficient embedded processor. These synthesizable and configurable cores have been successfully implemented in hundreds of SoC designs.

MIPS32® 4KE™ Family - The highly-configurable 4KE cores offer SoC designers a tailored solution for high-performance, low-power consumer applications, giving them the flexibility to optimize applications by maximizing performance or minimizing power consumption.

MIPS32® 4KS™ Family - The 4KSd secure data core is a high-performance processor that meets the needs of emerging secure data applications and the stringent power, security and size requirements for smart cards, without the need of a coprocessor.

MIPS32® M4K™ Core - The small, high-performance M4K core offers a superior solution for multi-CPU SoC designs, which are becoming increasingly popular in next-generation networking and broadband applications.

Pro Series® Family - Pro Series® cores offer unprecedented value by enabling SoC designers to write their own instruction set extensions and create highly differentiated, highly competitive products. Using standard tools and software, designers can implement instruction extensions to significantly increase performance, reduce power consumption, implement critical operations and more.

4Kc® Hard IP Core - The MIPS32™ 4Kc™ Hard Core is a technology-specific implementation of the synthesizable 32-bit MIPS32 4Kc core. The implementation is targeted for the SMIC 0.18um process. Chip developers or system OEMs who are building complex System-On-Chip ASIC devices can significantly reduce design time, resources, and time-to-market by using the 4Kc SMIC Hard Core.

4KEc® Hard IP Cores - The MIPS32® 4KEc® Hard Cores are technology-specific implementation of the synthesizable 32-bit MIPS32 4KEc core. Available implementation targets include TSMC 0.18mm CL018G process and TSMC 0.13mm CL013G process. Chip developers or system OEMs who are building complex System-On-Chip ASIC devices can significantly reduce design time, resources, and time to-market by using 4KEc Hard Cores.

24Kc® Hard IP Cores - The MIPS32™ 24Kc™ Hard Core is a technology-specific implementation of the synthesizable 32-bit MIPS32 24Kc core. The implementation is targeted for the TSMC 0.18mm process. Chip developers or system OEMs who are building complex System-On-Chip ASIC devices can significantly reduce design time, resources, and time-to-market by using the 24Kc TSMC Hard Core.

24KEc® Hard IP Cores - The MIPS32® 24KEc® Hard IP Cores are technology-specific implementationsof the synthesizable 32-bit MIPS32 24KEc core. Available implementation targetsinclude TSMC 0.13µm CL013G process. Chip developers or system OEMs whoare building complex System-On-Chip (SoC) ASIC devices can significantly reducedesign time, resources, and time to-market by using 24KEc Hard IPCores.