Y. Tashiro, H. Yamauchi, T. Minami, T. Tajiri, Yutaka Suzuki
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引用次数: 1
摘要
我们新设计的IDSP(图像数字1信号处理器)[1]需要高吞吐量at。至少300 NIOPS用于实时视频信号处理系统(特别是对于一组CCITT标准p x 64 kb/s视频编解码器),以实现多个像素块的并行处理和短TAT(周转时间)的开发。此外,应用系统上的IDSP需要软件。因此,IDSP测试应被视为固件测试,包括硬件和软件验证。实施固件测试。然而,由于需要验证IDSP的实时性和并行处理性能,因此测试是一项艰巨的任务。houiida。JTAG(联合测试行动组)设计的ry-scan技术是调试具有11个多处理器的系统的一种尝试。['] 1 .技术上,测试总线控制器在系统板上分配扫描路径,该路径连接所有处理器和其他设备的扫描路径、输入和接收。将串行数据转换为a,并从assigned扫描路径寄存器中读取。但是,扫描路径测试模式,即串行数据,a,必须用于系统测试。通用,程序总线1程序总线
An Organized Firmware Verification Environment for the Programmable Image DSP
Our newly designed IDSP (Image Digita.1 Signal Processor)[1] requires a high throughput of at. least 300 NIOPS for real-time video signal processing systems (especially, for one-hoard CCITT standard p x 64 kb/s video codec ones) to enable both the parallel processing of plural pixel blocks and development in short TAT (turn-around-time). Moreover, t#he IDSP on the application systems requires soft,ware. IDSP testing, therefore, should be considered firmware testing, involving hardware and software verification. Iinpleinenting firmware test.ing, liowever, is a difficult task due to the necessity of verifying the real-time and parallel processing performance of’ the IDSP. The houiida.ry-scan tecliniciue devised by JTAG (Joint Test Action Group) is one attempt to debug a system wit11 multiprocessors.[’] 111 tliis t,echnique, a test bus controller assigns sciln paths on the system board that connects all processors’ and other devices’ scan paths and inputs and rea.ds serial data into a,nd from the a.ssigned scan path registers. However, scan path test pa,tterns, i.e., serial dat,a, have t.o he generakd for system testing. Generat,program-bus 1 programI sad-bus
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