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Unit 13 Analysis of Clocked Sequential Circuits. Ku-Yaw Chang canseco@mail.dyu.edu.tw Assistant Professor, Department of Computer Science and Information Engineering Da-Yeh University. Outline. 13.1 A Sequential Parity Checker 13.2 Analysis by Signal Tracing and Timing Charts
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Unit 13Analysis ofClocked Sequential Circuits Ku-Yaw Chang canseco@mail.dyu.edu.tw Assistant Professor, Department of Computer Science and Information Engineering Da-Yeh University
Outline 13.1 A Sequential Parity Checker 13.2 Analysis by Signal Tracing and Timing Charts 13.3 State Tables and Graphs 13.4 General Models for Sequential Circuits Analysis of Clocked Sequential Circuits
State Tables Analysis of Clocked Sequential Circuits
State Graph Analysis of Clocked Sequential Circuits
Construct the State Table • Determine the flip-flop input equations and the output equations from the circuit. • Derive the next-state equation for each flip-flop from its input equations, using one of the following relations: D flip-flop Q+ = D T flip-flop Q+ = T Q : • Plot a next-state map for each flip-flop. • Combine these maps to form the state table. • A transition table Analysis of Clocked Sequential Circuits
First Example Analysis of Clocked Sequential Circuits
Construct the State Table • Determine the flip-flop input equations and the output equations from the circuit. • Derive the next-state equation for each flip-flop from its input equations, using one of the following relations: D flip-flop Q+ = D T flip-flop Q+ = T Q : • Plot a next-state map for each flip-flop. • Combine these maps to form the state table. • A transition table Analysis of Clocked Sequential Circuits
Construct the State Table • Determine the flip-flop input equations and the output equations from the circuit. • DA = X B’ • DB = X + A • Z = A B Analysis of Clocked Sequential Circuits
Construct the State Table • Determine the flip-flop input equations and the output equations from the circuit. • Derive the next-state equation for each flip-flop from its input equations, using one of the following relations: D flip-flop Q+ = D T flip-flop Q+ = T Q : • Plot a next-state map for each flip-flop. • Combine these maps to form the state table. • A transition table Analysis of Clocked Sequential Circuits
Construct the State Table • Derive the next-state equation for each flip-flop from its input equations, using one of the following relations:D flip-flop Q+ = D D-CE flip-flop Q+ = D · CE + Q · CE’ T flip-flop Q+ = T Q S-R flip-flop Q+ = S + R’Q J-K flip-flop Q+ = JQ’ + K’Q • A+ = X B’ • B+ = X + A Analysis of Clocked Sequential Circuits
Construct the State Table • Determine the flip-flop input equations and the output equations from the circuit. • Derive the next-state equation for each flip-flop from its input equations, using one of the following relations: D flip-flop Q+ = D T flip-flop Q+ = T Q : • Plot a next-state map for each flip-flop. • Combine these maps to form the state table. • A transition table Analysis of Clocked Sequential Circuits
Construct the State Table • Plot a next-state map for each flip-flop. • A+ = X B’ • B+ = X + A Analysis of Clocked Sequential Circuits
Construct the State Table • Determine the flip-flop input equations and the output equations from the circuit. • Derive the next-state equation for each flip-flop from its input equations, using one of the following relations: D flip-flop Q+ = D T flip-flop Q+ = T Q : • Plot a next-state map for each flip-flop. • Combine these maps to form the state table. • A transition table Analysis of Clocked Sequential Circuits
Construct the State Table • Combine these maps to form the state table. • A transition table Analysis of Clocked Sequential Circuits
Moore State Graph Analysis of Clocked Sequential Circuits
Second Example Analysis of Clocked Sequential Circuits
Construct the State Table • Determine the flip-flop input equations and the output equations from the circuit. • JA = XB, KA = X • JB = X, KB = XA • Z = XB’+XA+X’A’B Analysis of Clocked Sequential Circuits
Construct the State Table • Derive the next-state equation for each flip-flop from its input equations, using one of the following relations:D flip-flop Q+ = D D-CE flip-flop Q+ = D · CE + Q · CE’ T flip-flop Q+ = T Q S-R flip-flop Q+ = S + R’Q J-K flip-flop Q+ = JQ’ + K’Q • A+ = JAA’ + KA’A = XBA’ + X’A • B+ = JBB’ + KB’B = XB’ + (AX)’B = XB’+ X’B + A’B • Z = X’A’B + XB’ + XA Analysis of Clocked Sequential Circuits
Construct the State Table • Plot a next-state and output map. Analysis of Clocked Sequential Circuits
Construct the State Table • Combine these maps to form the state table. Analysis of Clocked Sequential Circuits
Mealy State Graph Analysis of Clocked Sequential Circuits
Third Example • Serial Adder Analysis of Clocked Sequential Circuits
Timing Diagram Analysis of Clocked Sequential Circuits
Serial Adder • Initially the carry flip-flop must be cleared • C0=0 • Start by adding the least-significant (rightmost) bits in each word. • Reading the sum output just before the rising edge of the clock Analysis of Clocked Sequential Circuits
A Mealy machine Inputs: xi and yi Output: si Two states represent a carry (ci) S0 for 0 and S1 for 1 State Graph Analysis of Clocked Sequential Circuits
Multiple Inputs and Outputs Analysis of Clocked Sequential Circuits
Multiple Inputs and Outputs Analysis of Clocked Sequential Circuits