Digit-Serial Computation, 1995 The Springer International Series in Engineering and Computer Science Series, Vol. 316

Digital signal processing (DSP) is used in a wide range of applications such as speech, telephone, mobile radio, video, radar and sonar. The sample rate requirements of these applications range from 10 KHz to 100 MHz. Real time implementation of these systems requires design of hardware which can process signal samples as these are received from the source, as opposed to storing them in buffers and processing them in batch mode. Efficient implementation of real­ time hardware for DSP applications requires study of families of architectures and implementation styles out of which an appropriate architecture can be selected for a specified application. To this end, the digit-serial implementation style is proposed as an appropriate design methodology for cases where bit-serial systems cannot meet the sample rate requirements, and bit-parallel systems require excessive hardware. The number of bits processed in a clock cycle is referred to as the digit-size. The hardware complexity and the achievable sample rate increase with increase in the digit-size. As special cases, a digit­ serial system is reduced to bit-serial or bit-parallel when the digit-size is selected to equal one or the word-length, respectively. A family of implementations can be obtained by changing the digit-size parameter, thus permitting an optimal trade-off between throughput and size. Because of their structured architecture, digit-serial designs lend themselves to automatic compilation from algorithmic descriptions. An implementation of this design methodology, the Parsifal silicon compiler was developed at the General Electric Corporate Research and Development laboratory.

1. Digit-Serial Architecture. 2. Digit-Serial Cell Design. 3. Multipliers. 4. Digit-Serial Input Language. 5. Layout of Digit-Serial Circuits. 6. Scheduling. 7. Digit-Serial Performance. 8. Bit-Level Unfolding. 9. The Folding Transformation. 10. Wavelet Transform Architectures. 11. Digit-Serial Systolic Arrays. 12. Canonic Signed Digit Arithmetic. 13. Online Arithmetic. Index.