Author :
Lekatsas, Haris ; Henkel, Jörg ; Wolf, Wayne
Abstract :
In the past, systems utilizing code compression have been shown to be advantageous over traditional systems, especially in terms of smaller memory need. However, in order to take full advantage of other design criteria like increasing performance and/or minimizing power consumption, the decompression should take place as close as possible to the CPU. We have designed such a decompression unit that, in spite of the higher bandwidth constraints close to the CPU, does improve performance and minimize power consumption of a whole embedded system. By means of extensive simulations, we have designed and eventually sized the various parameters of the decompression engine (#pipelines, #pipeline stages, input/output buffer sizes etc.). As a result, the system´s performance is increased by up to 46%. Unlike other approaches, we have implemented our engine as a soft IP core such that it can be used directly within a SOC design without any modification on the CPU architecture.
Keywords :
data compression; embedded systems; parallel architectures; pipeline processing; CPU architecture; SOC design; bandwidth constraints; code compression; decompression engine; decompression unit; design criteria; embedded system architecture; input/output buffer sizes; memory need; pipelined decompression architecture simulation; power consumption; soft IP core; Bandwidth; Central Processing Unit; Discrete event simulation; Embedded computing; Embedded system; Energy consumption; Mobile computing; National electric code; Permission; Search engines;
