Title :
Interconnect peak current reduction for wavelet array processor using self-timed signaling
Author :
Liljeberg, Pasi ; Dhaou, I.B. ; Plosila, Juha ; Isoaho, Jouni ; Tenhunen, Hannu
Author_Institution :
Dept. of Inf. Technol., Turku Univ., Finland
Abstract :
This paper describes a method for reducing the interconnection peak current in a system-on-chip design. The method is applied to a globally asynchronous locally synchronous 128-point wavelet processor array design with 1.45 million equivalent gates. In the proposed approach, data transfer along buffered highly capacitive on-chip interconnects is realized using asynchronous communication channels. These channels are managed by a global self-timed controller which allows only one channel to be active at a time. This method reduces the interconnect peak current by 75% compared to a design where wires are driven synchronously. This approach allows the reduction of the area devoted to the decoupling capacitance needed to suppress power supply noise.
Keywords :
VLSI; digital signal processing chips; discrete wavelet transforms; electric current; integrated circuit design; parallel architectures; timing; GALS based design strategy; GALS implementation; SoC design; asynchronous communication channels; buffered on-chip interconnects; data transfer; digital signal processing; discrete wavelet transform; fast DWT; global self-timed controller; globally asynchronous locally synchronous processor; highly capacitive on-chip interconnects; interconnect peak current reduction; processor array design; self-timed signaling; system-on-chip design; wavelet array processor; Clocks; Crosstalk; Discrete wavelet transforms; Filter bank; Noise reduction; Power supplies; Power system interconnection; Process design; Signal processing; System-on-a-chip;
Conference_Titel :
Circuits and Systems, 2002. ISCAS 2002. IEEE International Symposium on
Print_ISBN :
0-7803-7448-7
DOI :
10.1109/ISCAS.2002.1010498
