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CS61C L23 Combinational Logic Blocks (1) Garcia, Fall 2006 © UCB Lecturer SOE Dan Garcia www.cs.berkeley.edu/~ddgarcia inst.eecs.berkeley.edu/~cs61c UC.

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Presentation on theme: "CS61C L23 Combinational Logic Blocks (1) Garcia, Fall 2006 © UCB Lecturer SOE Dan Garcia www.cs.berkeley.edu/~ddgarcia inst.eecs.berkeley.edu/~cs61c UC."— Presentation transcript:

1 CS61C L23 Combinational Logic Blocks (1) Garcia, Fall 2006 © UCB Lecturer SOE Dan Garcia www.cs.berkeley.edu/~ddgarcia inst.eecs.berkeley.edu/~cs61c UC Berkeley CS61C : Machine Structures Lecture 23 – Combinational Logic Blocks Close call!   Cal squeaked by Washington in Overtime 31-24. We win, and then we drop a spot in the polls. Yikes! UCLA soon. calbears.cstv.com

2 CS61C L23 Combinational Logic Blocks (2) Garcia, Fall 2006 © UCB Review Use this table and techniques we learned to transform from 1 to another

3 CS61C L23 Combinational Logic Blocks (3) Garcia, Fall 2006 © UCB Today Data Multiplexors Arithmetic and Logic Unit Adder/Subtractor

4 CS61C L23 Combinational Logic Blocks (4) Garcia, Fall 2006 © UCB Data Multiplexor (here 2-to-1, n-bit-wide) “mux”

5 CS61C L23 Combinational Logic Blocks (5) Garcia, Fall 2006 © UCB N instances of 1-bit-wide mux How many rows in TT?

6 CS61C L23 Combinational Logic Blocks (6) Garcia, Fall 2006 © UCB How do we build a 1-bit-wide mux?

7 CS61C L23 Combinational Logic Blocks (7) Garcia, Fall 2006 © UCB 4-to-1 Multiplexor? How many rows in TT?

8 CS61C L23 Combinational Logic Blocks (8) Garcia, Fall 2006 © UCB Is there any other way to do it? Hint: NCAA tourney! Ans: Hierarchically!

9 CS61C L23 Combinational Logic Blocks (9) Garcia, Fall 2006 © UCB Administrivia HW due wednesday

10 CS61C L23 Combinational Logic Blocks (10) Garcia, Fall 2006 © UCB Arithmetic and Logic Unit Most processors contain a special logic block called “Arithmetic and Logic Unit” (ALU) We’ll show you an easy one that does ADD, SUB, bitwise AND, bitwise OR

11 CS61C L23 Combinational Logic Blocks (11) Garcia, Fall 2006 © UCB Our simple ALU

12 CS61C L23 Combinational Logic Blocks (12) Garcia, Fall 2006 © UCB Adder/Subtracter Design -- how? Truth-table, then determine canonical form, then minimize and implement as we’ve seen before Look at breaking the problem down into smaller pieces that we can cascade or hierarchically layer

13 CS61C L23 Combinational Logic Blocks (13) Garcia, Fall 2006 © UCB Adder/Subtracter – One-bit adder LSB…

14 CS61C L23 Combinational Logic Blocks (14) Garcia, Fall 2006 © UCB Adder/Subtracter – One-bit adder (1/2)…

15 CS61C L23 Combinational Logic Blocks (15) Garcia, Fall 2006 © UCB Adder/Subtracter – One-bit adder (2/2)…

16 CS61C L23 Combinational Logic Blocks (16) Garcia, Fall 2006 © UCB N 1-bit adders  1 N-bit adder What about overflow? Overflow = c n ? +++ b0b0

17 CS61C L23 Combinational Logic Blocks (17) Garcia, Fall 2006 © UCB What about overflow? Consider a 2-bit signed # & overflow: 10 = -2 + -2 or -1 11 = -1 + -2 only 00 = 0 NOTHING! 01 = 1 + 1 only Highest adder C 1 = Carry-in = C in, C 2 = Carry-out = C out No C out or C in  NO overflow! C in, and C out  NO overflow! C in, but no C out  A,B both > 0, overflow! C out, but no C in  A,B both < 0, overflow! ± # What op?

18 CS61C L23 Combinational Logic Blocks (18) Garcia, Fall 2006 © UCB What about overflow? Consider a 2-bit signed # & overflow: 10 = -2 + -2 or -1 11 = -1 + -2 only 00 = 0 NOTHING! 01 = 1 + 1 only Overflows when… C in, but no C out  A,B both > 0, overflow! C out, but no C in  A,B both < 0, overflow! ± #

19 CS61C L23 Combinational Logic Blocks (19) Garcia, Fall 2006 © UCB Extremely Clever Subtractor

20 CS61C L23 Combinational Logic Blocks (20) Garcia, Fall 2006 © UCB Peer Instruction A. Truth table for mux with 4-bits of signals has 2 4 rows B. We could cascade N 1-bit shifters to make 1 N-bit shifter for sll, srl C. If 1-bit adder delay is T, the N-bit adder delay would also be T ABC 1: FFF 2: FFT 3: FTF 4: FTT 5: TFF 6: TFT 7: TTF 8: TTT

21 CS61C L23 Combinational Logic Blocks (21) Garcia, Fall 2006 © UCB Peer Instruction Answer A. Truth table for mux with 4-bits of signals is 2 4 rows long B. We could cascade N 1-bit shifters to make 1 N-bit shifter for sll, srl C. If 1-bit adder delay is T, the N-bit adder delay would also be T ABC 1: FFF 2: FFT 3: FTF 4: FTT 5: TFF 6: TFT 7: TTF 8: TTT A. Truth table for mux with 4-bits of signals controls 16 inputs, for a total of 20 inputs, so truth table is 2 20 rows…FALSE B. We could cascade N 1-bit shifters to make 1 N-bit shifter for sll, srl … TRUE C. What about the cascading carry? FALSE

22 CS61C L23 Combinational Logic Blocks (22) Garcia, Fall 2006 © UCB “And In conclusion…” Use muxes to select among input S input bits selects 2S inputs Each input can be n-bits wide, indep of S Implement muxes hierarchically ALU can be implemented using a mux Coupled with basic block elements N-bit adder-subtractor done using N 1- bit adders with XOR gates on input XOR serves as conditional inverter

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