To effectively tolerate a double-node upset,a novel double-node-upset-resilient radiation-hardened latch is proposed in 22 nm complementary-metal-oxide-semiconductor technology.Using three interlocked single-node-upse...To effectively tolerate a double-node upset,a novel double-node-upset-resilient radiation-hardened latch is proposed in 22 nm complementary-metal-oxide-semiconductor technology.Using three interlocked single-node-upset-resilient cells,which are identically mainly constructed from three mutually feeding back 2-input C-elements,the latch achieves double-node-upset-resilience.Using smaller transistor sizes,clock-gating technology,and high-speed transmission-path,the cost of the latch is effectively reduced.Simulation results demonstrate the double-node-upset-resilience of the latch and also show that compared with the up-to-date double-node-upset-resilient latches,the proposed latch reduces the transmission delay by 72.54%,the power dissipation by 33.97%,and the delay-power-area product by 78.57%,while the average cost of the silicon area is only increased by 16.45%.展开更多
Three series of novel anti-immunodeficiency virus 1 (HIV-1) dual (RT/1N) inhibitors were rationally designed by introducing a functioning diketo acid (DKA) into pyridin-2-one scaffold. To efficiently analyze inh...Three series of novel anti-immunodeficiency virus 1 (HIV-1) dual (RT/1N) inhibitors were rationally designed by introducing a functioning diketo acid (DKA) into pyridin-2-one scaffold. To efficiently analyze inhibitory activity, these compounds were screened against HIV-1 RT and IN respectively via surface plasmon resonance (SPR), and active compounds were subsequently evaluated by enzyme assay. It was noteworthy that compound A2 exhibited moderate activity against both HIV-1 RT and IN. This result provided information for further development of pyridinone analogues as potent dual HIV-1 inhibitors.展开更多
基金The National Natural Science Foundation of China(No.61604001)the Doctor Startup Fund of Anhui University(No.J01003217)
文摘To effectively tolerate a double-node upset,a novel double-node-upset-resilient radiation-hardened latch is proposed in 22 nm complementary-metal-oxide-semiconductor technology.Using three interlocked single-node-upset-resilient cells,which are identically mainly constructed from three mutually feeding back 2-input C-elements,the latch achieves double-node-upset-resilience.Using smaller transistor sizes,clock-gating technology,and high-speed transmission-path,the cost of the latch is effectively reduced.Simulation results demonstrate the double-node-upset-resilience of the latch and also show that compared with the up-to-date double-node-upset-resilient latches,the proposed latch reduces the transmission delay by 72.54%,the power dissipation by 33.97%,and the delay-power-area product by 78.57%,while the average cost of the silicon area is only increased by 16.45%.
基金National Natural Science Foundation of China(Grant No.21172014,812111023 and 81172733)grants from the Ministry of Science and Technology of China(Grant No.200 9ZX09301-010)
文摘Three series of novel anti-immunodeficiency virus 1 (HIV-1) dual (RT/1N) inhibitors were rationally designed by introducing a functioning diketo acid (DKA) into pyridin-2-one scaffold. To efficiently analyze inhibitory activity, these compounds were screened against HIV-1 RT and IN respectively via surface plasmon resonance (SPR), and active compounds were subsequently evaluated by enzyme assay. It was noteworthy that compound A2 exhibited moderate activity against both HIV-1 RT and IN. This result provided information for further development of pyridinone analogues as potent dual HIV-1 inhibitors.
