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JK FLIPFLOP
JK FLIPFLOPT FLIPFLOP
T FLIPFLOPRipple carry Adder
Ripple carry AdderRipple carry Adder
Ripple carry AdderADDER 4 BIT
ADDER 4 BITRIPPLE CARRY ADDER
RIPPLE CARRY ADDERNOR BASED SR FLIPFLOP
NOR BASED SR FLIPFLOPSR FLIPFLOP
SR FLIPFLOPJK FLIPFLOP
JK FLIPFLOPD FLIPFLOP
D FLIPFLOPDFF USING JKFF
DFF USING JKFFDFF USING SRFF
DFF USING SRFFT FLIPFLOP USING INBUILT
T FLIPFLOP USING INBUILTJK FLIPFLOP
JK FLIPFLOPMOD 12 COUNTER
MOD 12 COUNTERsequence generator using counter
sequence generator using counter24 TO 1 MUX 8 TO 1 MUX
24 TO 1 MUX 8 TO 1 MUXFULL SUBTRACTOR USING NOR GATE
FULL SUBTRACTOR USING NOR GATE1-BIT MAGNITUDE COMPARATOR
1-BIT MAGNITUDE COMPARATOR3 BIT PARALLEL MULTIPLIER
3 BIT PARALLEL MULTIPLIERJKFF using SRFF
JKFF using SRFFSRFF USING JKFF
SRFF USING JKFFNAND BASED SR FLIPFLOP
NAND BASED SR FLIPFLOPD FLIPFLOP
D FLIPFLOPT FLIPFLOP
T FLIPFLOPDFF USING JKFF
DFF USING JKFFDFF USING TFF
DFF USING TFFTFF USING JKFF
TFF USING JKFF4 bit bidirectional shift register
4 bit bidirectional shift registerSISO
SISOPIPO
PIPO3 bit binary counter
3 bit binary counter3 bit binary counter
3 bit binary counterTFF USING SRFF
TFF USING SRFFSRFF using DFF
SRFF using DFFTFF USING DFF
TFF USING DFFJKFF USING DFF
JKFF USING DFFSRFF USING TFF
SRFF USING TFFJKFF Using TFF
JKFF Using TFFsequence generator using counter
sequence generator using countersequence generator using counter
sequence generator using countersequence generator using counter
sequence generator using counter4 bit synchronous counter
4 bit synchronous counter4 bit synchronous down counter
4 bit synchronous down countercircuit that counts (0,2,4...14)when input is 1 and counts (1,3...15)when input is 0
circuit that counts (0,2,4...14)when input is 1 and counts (1,3...15)when input is 0MUX with counter
MUX with counter4 bit ripple down counter
4 bit ripple down counter4 bit ripple counter
4 bit ripple counter4 BIT UP-DOWN COUNTER
4 BIT UP-DOWN COUNTERMOD 7 COUNTER
MOD 7 COUNTER4 bit ripple counter
4 bit ripple counterSISO
SISOPIPO
PIPOBCD ADDER
BCD ADDER3 BIT PARALLEL MULTIPLIER
3 BIT PARALLEL MULTIPLIERmod-6 unit distance counter
mod-6 unit distance counter1:4 DEMUX
1:4 DEMUXABSORPTION LAW
ABSORPTION LAW4 TO 2 ENCODER
4 TO 2 ENCODER4 TO 2 PRIORITY ENCODER
4 TO 2 PRIORITY ENCODER1 TO 2 DECODER
1 TO 2 DECODERVERIFICATION OF TRUTH TABLE USING NOR&XNOR
VERIFICATION OF TRUTH TABLE USING NOR&XNORABSORBTION LAW
ABSORBTION LAWOR 2 TO 1 MUX
OR 2 TO 1 MUXAND 2 TO 1 MUX
AND 2 TO 1 MUXNOT 2 TO 1 MUX
NOT 2 TO 1 MUXNAND 2 TO 1 MUX
NAND 2 TO 1 MUXNOR 2 TO 1 MUX
NOR 2 TO 1 MUXEXOR 2 TO 1 MUX
EXOR 2 TO 1 MUX32 TO 1 MUX USING 4 TO 1 MUX
32 TO 1 MUX USING 4 TO 1 MUXIMPLEMENTATION USING MINTERMS WITH 4 TO 1 MUX
IMPLEMENTATION USING MINTERMS WITH 4 TO 1 MUXSR FLIPFLOP
SR FLIPFLOP1:2 DEMUX
1:2 DEMUX1:16 DEMUX
1:16 DEMUX16 TO 1 MUX
16 TO 1 MUX2 to 1 MUX
2 to 1 MUX4 TO 1 MUX
4 TO 1 MUXRIPPLE CARRY SUBTRACTOR
RIPPLE CARRY SUBTRACTORVERIFICATION OF BOOLEAN POSTULATES AND LAWS
VERIFICATION OF BOOLEAN POSTULATES AND LAWSsequence generator using counter
sequence generator using counterDELAY FLIPFLOP
DELAY FLIPFLOPDISTRIBUTIVE LAW
DISTRIBUTIVE LAW4 TO 16 DECODER
4 TO 16 DECODER4 TO 2 ENCODER
4 TO 2 ENCODER3 TO 8 DECODER
3 TO 8 DECODER2 TO 4 DECODER
2 TO 4 DECODERCONSENSUS LAW
CONSENSUS LAWIMPLEMENTATION USING MINTERMS WITH 8 TO 1 MUX
IMPLEMENTATION USING MINTERMS WITH 8 TO 1 MUXIMPLEMENTATION USING MINTERMS WITH 16 TO 1 MUX
IMPLEMENTATION USING MINTERMS WITH 16 TO 1 MUX1:8 DEMUX
1:8 DEMUX3.BCD TO EXCESS-3 CONVERTER
3.BCD TO EXCESS-3 CONVERTERTOGGLE FLIPFLOP
TOGGLE FLIPFLOP4 BIT PARITY GENERATOR AND CHECKER
4 BIT PARITY GENERATOR AND CHECKER4.2 TO 1 ENCODER
4.2 TO 1 ENCODER4 BIT UNIVERSAL SHIFT REGISTER
4 BIT UNIVERSAL SHIFT REGISTERcounter that counts 0,2,4,7,0
counter that counts 0,2,4,7,0SIPO
SIPOASSOCIATIVE
ASSOCIATIVE4 BIT ADDER /SUBTRACTOR
4 BIT ADDER /SUBTRACTORsequence generator using counter
sequence generator using counterGRAY TO BINARY CODE CONVERTER
GRAY TO BINARY CODE CONVERTER4 bit synchronous UP/DOWN counter
4 bit synchronous UP/DOWN counterEXCESS-3 TO BCD CONVERTER
EXCESS-3 TO BCD CONVERTERBCD ADDER
BCD ADDERTFF USING JKFF
TFF USING JKFF4 bit ripple counter with decoded outputs
4 bit ripple counter with decoded outputsNAND BASED SR FLIPFLOP
NAND BASED SR FLIPFLOP4 bit synchronous UP/DOWN counter
4 bit synchronous UP/DOWN counterOCTAL TO BINARY ENCODER
OCTAL TO BINARY ENCODERBCD TO 7 SEGMENT DECODER
BCD TO 7 SEGMENT DECODERNOR BASED SR FLIPFLOP
NOR BASED SR FLIPFLOPmod-6 unit distance counter
mod-6 unit distance counter4 BIT ADDER /SUBTRACTOR
4 BIT ADDER /SUBTRACTOR1.BINARY TO GRAY CODE CONVERTER
1.BINARY TO GRAY CODE CONVERTERsequence generator using counter
sequence generator using counter4 bit synchronous UP/DOWN counter
4 bit synchronous UP/DOWN counter4 bit ripple counter with decoded outputs
4 bit ripple counter with decoded outputs4 BIT ADDER /SUBTRACTOR
4 BIT ADDER /SUBTRACTOR4 bit synchronous UP/DOWN counter
4 bit synchronous UP/DOWN counterVERIFICATION OF TRUTH TABLE USING NOT GATE
VERIFICATION OF TRUTH TABLE USING NOT GATEsequence generator using counter
sequence generator using countersequence generator using counter
sequence generator using counter4 bit synchronous counter with ripple carry
4 bit synchronous counter with ripple carrycircuit that counts (0,2,4...14)when input is 1 and counts (1,3...15)when input is 0
circuit that counts (0,2,4...14)when input is 1 and counts (1,3...15)when input is 04 bit synchronous UP/DOWN counter
4 bit synchronous UP/DOWN counterIMPLEMENTATION USING MINTERMS WITH 2 TO 1 MUX
IMPLEMENTATION USING MINTERMS WITH 2 TO 1 MUX2.DECIMAL TO BCD ENCODER
2.DECIMAL TO BCD ENCODER