Scalability study of polymorphic register files
Paper i proceeding, 2012

We study the scalability of multi-lane 2D Polymorphic Register Files (PRFs) in terms of clock cycle time, chip area and power consumption. We assume an implementation which stores data in a 2D array of linearly addressable memory banks, and consider one single-view and four suitable multi-view parallel access schemes which cover all basic access patterns commonly used in scientific and multimedia applications. The PRF design features 2 read and 1 write ports, targeting the TSMC 90nm ASIC technology. We consider three PRF sizes - 32KB, 128KB and 512KB and four multi-lane configurations - 8 / 16 / 32 and 64 lanes. Synthesis results suggest that the clock frequency varies between 500MHz for a 512KB PRF with 64 vector lanes and 970Mhz for a 32KB / 8-lanes case. Estimated power consumption ranges from less than 300mW (dynamic) and 10mW (leakage) for our 8-lane, 32KB PRF up to 8.7W (dynamic) and 276mW (leakage) for a 512KB with 64 lanes. We also show the correlation among the storage capacity, the number of lanes, and the chip overall area. Furthermore, we also investigated customized addressing functions. Our experimental results suggest up to 21% increase of the clock frequency, and up to 39% combinational hardware area reduction (nearly 10% of the total area) compared to our straightforward implementations. Concerning power, we reduce dynamic power with up to 31% and leakage with nearly 24%.

Vector Processors

Vector Register File

Parallel Access Memory Schemes



Vector Lanes


Catalin Ciobanu

Chalmers, Data- och informationsteknik, Datorteknik

G.K. Kuzmanov

TU Delft

Georgi Gaydadjiev

Chalmers, Data- och informationsteknik, Datorteknik

15th Euromicro Conference on Digital System Design, DSD 2012; Cesme, Izmir; Turkey; 5 September 2012 through 8 September 2012

978-076954798-5 (ISBN)


Elektroteknik och elektronik






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