Title :
ORCA: a high performance, easy to use SRAM based architecture
Author :
Krambeck, Robert H.
Author_Institution :
AT&T Bell Labs., Allentown, PA, USA
Abstract :
The Optimized Reconfigurable Cell Array (ORCA) is a new SRAM based FPGA architecture that makes FPGA´s attractive in applications that previously were reserved for gate arrays. The ORCA has an architecture that assures dense layout of all major types of functionality needed including data path, random logic, and SRAM. High density data paths are obtained through a completely nibble oriented structure for both routing and functionality. Good random logic packing results from a novel approach to interconnect that simplifies software and reduces transistor count, coupled with a powerful and flexible functional unit. User access to all SRAM bits associated with Look Up Tables (LUT´s) gives good SRAM density. High speed is assured with high speed arithmetic circuits, low resistance interconnect lines, and special low skew clock lines. To insure efficient use of resources, unneeded clock lines can be used to route critical signals instead
Keywords :
SRAM chips; cellular arrays; circuit CAD; circuit layout CAD; field programmable gate arrays; integrated circuit layout; logic CAD; network routing; table lookup; ORCA; SRAM based FPGA architecture; SRAM based architecture; dense layout; high density data paths; high speed arithmetic circuits; look up tables; low resistance interconnect lines; low skew clock lines; nibble oriented structure; optimized reconfigurable cell array; routing; Arithmetic; Clocks; Computer architecture; Coupling circuits; Field programmable gate arrays; Integrated circuit interconnections; Random access memory; Reconfigurable logic; Routing; Table lookup;
Conference_Titel :
WESCON/'93. Conference Record,
Conference_Location :
San Francisco, CA
Print_ISBN :
0-7803-9970-6
DOI :
10.1109/WESCON.1993.488453
