A. MANZAK And H. Goksu, "Application of very fast simulated reannealing (VFSR) to low power design," EMBEDDED COMPUTER SYSTEMS: ARCHITECTURES, MODELING, AND SIMULATION , vol.3553, pp.308-313, 2005
MANZAK, A. And Goksu, H. 2005. Application of very fast simulated reannealing (VFSR) to low power design. EMBEDDED COMPUTER SYSTEMS: ARCHITECTURES, MODELING, AND SIMULATION , vol.3553 , 308-313.
MANZAK, A., & Goksu, H., (2005). Application of very fast simulated reannealing (VFSR) to low power design. EMBEDDED COMPUTER SYSTEMS: ARCHITECTURES, MODELING, AND SIMULATION , vol.3553, 308-313.
MANZAK, A, And HÜSEYİN GÖKSU. "Application of very fast simulated reannealing (VFSR) to low power design," EMBEDDED COMPUTER SYSTEMS: ARCHITECTURES, MODELING, AND SIMULATION , vol.3553, 308-313, 2005
MANZAK, A And Goksu, HÜSEYİN. "Application of very fast simulated reannealing (VFSR) to low power design." EMBEDDED COMPUTER SYSTEMS: ARCHITECTURES, MODELING, AND SIMULATION , vol.3553, pp.308-313, 2005
MANZAK, A. And Goksu, H. (2005) . "Application of very fast simulated reannealing (VFSR) to low power design." EMBEDDED COMPUTER SYSTEMS: ARCHITECTURES, MODELING, AND SIMULATION , vol.3553, pp.308-313.
@article{article, author={A MANZAK And author={HÜSEYİN GÖKSU}, title={Application of very fast simulated reannealing (VFSR) to low power design}, journal={EMBEDDED COMPUTER SYSTEMS: ARCHITECTURES, MODELING, AND SIMULATION}, year=2005, pages={308-313} }