Yukihiko Shimazu

A built-in self-test for ADC and DAC in a single-chip speech CODEC

Built-in self-test (BIST) has been applied to test an analog to digital converter (ADC) and a digital to analog converter (DAC) embedded in a DSP-core ASIC. The performance characteristics of the ADC and the DAC designed in according with the CCITT recommendations are measured using BIST. Three characteristics have been evaluated and the measured results have shown good agreement with measured results by conventional tests. In the BIST operation, the DSP-core generates input stimulus and analyzes output response. Therefore, test-time is reduced, analog or mixed-signal test equipment is not needed, and finally, test-cost is reduced compared with conventional test methods. This paper describes the BIST design and evaluational results.<<ETX>>

A 2 V 250 MHz multimedia processor

This paper introduces a VLIW dual-issue RISC processor enhanced with sub-word and DSP instructions for multimedia applications. The processor core integrates 300 k transistors in an 8 mm/sup 2/ area and is implemented with 64 kB RAM onto a 6.0/spl times/6.2 mm/sup 2/ chip in a 2.O V, 0.3 /spl mu/m CMOS process. The processor exploits two modes of parallelism, dual issue instruction execution and 2-way sub-word operation, for a total of four operations per cycle and a peak sustained throughput of 1000 MOPS running at 250 MHz.

A 50 MHz 24 b floating-point DSP

A 24-bit floating-point digital signal processor (DSP) has been developed primarily for speech processing and communication applications. The chip uses 1.0- mu m double-metal CMOS with tungsten silicide technology. The instruction set is upward compatible with an 18-bit DSP. Novel circuit design techniques allowing 40-ns machine cycle time at 50-MHz clock and less than 600-mW power dissipation are described. A built-in self-test is prepared using on-chip IROM and the two 24-bit linear feedback shift registers which are included in I/O registers such as the data register, the serial input registers, and the serial output registers. The DSP design features are summarized.<<ETX>>