Circuit design of 32-bit Logarithmic Skip Adder (LSA) is introduced to implement high performance, low power addition. At architecture level, ELM carry lookahead adder is included into blocks of carry skip adder and the hybrid architecture of LSA costs 30% less hardware than ELM. At circuit level carry-incorporating structure to include the primary carry input in carry chain and and-xor structure to implement final sum logic are designed. Circuit simulation using spectre simulator are presented and compared with recent literatures'. For 2.5v, 0.25um process, critical delay of 0.8ns, power dissipation of 5.2mw at 100MHz is simulated.Engineering, Electrical & ElectronicOpticsPhysics, Condensed MatterCPCI-S(ISTP)
A two-level carry-skip adder using complementary pass-transistor logic is presented in this paper. T...
In this paper FIFB, FIEB and FISB Carry Save Adders and Wallace Tree Adders are designed, encoded in...
With the increase in device integration level and the growth in complexity of Integrated circuits, s...
ISA (Logarithmic Skip Adder) Algorithm is introduced in this paper. LS A is a hybrid structure of ca...
In this paper, we present a full-static carry-skip adder designed to achieve low power dissipation a...
介绍了一种32位对数跳跃加法器结构.该结构采用ELM超前进位加法器代替进位跳跃结构中的组内串行加法器,同ELM相比节约了30%的硬件开销.面向该算法,重点对关键单元进行了晶体管级的电路设计.其中的进位...
In this paper, we present the design of a carry skip adder that achieves low power dissipation and h...
In the domain of VLSI design, the adders are always meant to be the most fundamental requirements fo...
In this paper we use carry skip adder structure. This carry skip adder structure has very high speed...
Performance evaluation of a two-level carry-skip adder using complementary pass-transistor logic (CP...
Adders are very useful electronic circuits for performing additions in different electronic devices....
In this project, a literature study on the existing low-voltage low-power CMOS static logic circuits...
A two-level carry-skip adder using complementary pass-transistor logic is presented in this paper. T...
In this paper FIFB, FIEB and FISB Carry Save Adders and Wallace Tree Adders are designed, encoded in...
With the increase in device integration level and the growth in complexity of Integrated circuits, s...
ISA (Logarithmic Skip Adder) Algorithm is introduced in this paper. LS A is a hybrid structure of ca...
In this paper, we present a full-static carry-skip adder designed to achieve low power dissipation a...
介绍了一种32位对数跳跃加法器结构.该结构采用ELM超前进位加法器代替进位跳跃结构中的组内串行加法器,同ELM相比节约了30%的硬件开销.面向该算法,重点对关键单元进行了晶体管级的电路设计.其中的进位...
In this paper, we present the design of a carry skip adder that achieves low power dissipation and h...
In the domain of VLSI design, the adders are always meant to be the most fundamental requirements fo...
In this paper we use carry skip adder structure. This carry skip adder structure has very high speed...
Performance evaluation of a two-level carry-skip adder using complementary pass-transistor logic (CP...
Adders are very useful electronic circuits for performing additions in different electronic devices....
In this project, a literature study on the existing low-voltage low-power CMOS static logic circuits...
A two-level carry-skip adder using complementary pass-transistor logic is presented in this paper. T...
In this paper FIFB, FIEB and FISB Carry Save Adders and Wallace Tree Adders are designed, encoded in...
With the increase in device integration level and the growth in complexity of Integrated circuits, s...