Title :
High-level synthesis of recoverable VLSI microarchitectures
Author :
Blough, Douglas M. ; Kurdahi, Fadi J. ; Ohm, Seong Yong
Author_Institution :
Sch. of Electr. & Comput. Eng., Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
Two algorithms that combine the operations of scheduling and recovery-point insertion for high-level synthesis of recoverable microarchitectures are presented. The first uses a prioritized cost function in which functional unit (FU) cost is minimized first and register cost second. The second algorithm minimizes a weighted sum of FU and register costs. Both algorithms are optimal according to their respective cost functions and require less than 10 min of central processing unit (CPU) time on widely used high-level synthesis benchmarks. The best previous result reported several hours of CPU time for some of the same benchmarks on a computer of similar computational power.
Keywords :
VLSI; computational complexity; computer architecture; data flow graphs; fault tolerance; high level synthesis; processor scheduling; search problems; complexity; control and data flow graph; cost functions; fault-tolerant digital systems; high-level synthesis; low CPU time; micro-rollback; minimized functional unit cost; minimized register cost; optimal algorithms; prioritized cost function; recoverable VLSI microarchitectures; recovery-point insertion; scheduling; weighted sum; Application software; Central Processing Unit; Cost function; Hardware; High level synthesis; Microarchitecture; Processor scheduling; Registers; Scheduling algorithm; Very large scale integration;
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
