Analysis of information sources in references of the Wikipedia article "Bit slicing" in English language version.
[…] 4-bit bit-slice arithmetic logic unit (ALU) for 32-bit rapid single-flux-quantum microprocessors was demonstrated. The proposed ALU covers all of the ALU operations for the MIPS32 instruction set. […] It consists of 3481 Josephson junctions with an area of 3.09 × 1.66 mm2. It achieved the target frequency of 50 GHz and a latency of 524 ps for a 32-bit operation, at the designed DC bias voltage of 2.5 mV […] Another 8-bit parallel ALU has been designed and fabricated with target processing frequency of 30 GHz […] To achieve comparable performance to CMOS parallel microprocessors operating at 2–3 GHz, 4-bit bit-slice processing should be performed with a clock frequency of several tens of gigahertz. Several bit-serial arithmetic circuits have been successfully demonstrated with high-speed clocks of above 50 GHz […]
[…] 4-bit bit-slice arithmetic logic unit (ALU) for 32-bit rapid single-flux-quantum microprocessors was demonstrated. The proposed ALU covers all of the ALU operations for the MIPS32 instruction set. […] It consists of 3481 Josephson junctions with an area of 3.09 × 1.66 mm2. It achieved the target frequency of 50 GHz and a latency of 524 ps for a 32-bit operation, at the designed DC bias voltage of 2.5 mV […] Another 8-bit parallel ALU has been designed and fabricated with target processing frequency of 30 GHz […] To achieve comparable performance to CMOS parallel microprocessors operating at 2–3 GHz, 4-bit bit-slice processing should be performed with a clock frequency of several tens of gigahertz. Several bit-serial arithmetic circuits have been successfully demonstrated with high-speed clocks of above 50 GHz […]
[…] 4-bit bit-slice arithmetic logic unit (ALU) for 32-bit rapid single-flux-quantum microprocessors was demonstrated. The proposed ALU covers all of the ALU operations for the MIPS32 instruction set. […] It consists of 3481 Josephson junctions with an area of 3.09 × 1.66 mm2. It achieved the target frequency of 50 GHz and a latency of 524 ps for a 32-bit operation, at the designed DC bias voltage of 2.5 mV […] Another 8-bit parallel ALU has been designed and fabricated with target processing frequency of 30 GHz […] To achieve comparable performance to CMOS parallel microprocessors operating at 2–3 GHz, 4-bit bit-slice processing should be performed with a clock frequency of several tens of gigahertz. Several bit-serial arithmetic circuits have been successfully demonstrated with high-speed clocks of above 50 GHz […]
[…] Here's how you would put three 1-bit ALU to create a 3-bit ALU […]
[…] Here's how you would put three 1-bit ALU to create a 3-bit ALU […]