RTL Hardware Design by P. Chu Chapter 91. 1. Poor design practice and remedy 2. More counters 3....
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Transcript of RTL Hardware Design by P. Chu Chapter 91. 1. Poor design practice and remedy 2. More counters 3....
![Page 1: RTL Hardware Design by P. Chu Chapter 91. 1. Poor design practice and remedy 2. More counters 3. Register as fast temporary storage 4. Pipelined circuit.](https://reader036.fdocuments.us/reader036/viewer/2022070404/56649f395503460f94c55f1b/html5/thumbnails/1.jpg)
Chapter 9 1
Sequential Circuit Design: Practice
RTL Hardware Design by P. Chu
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Chapter 9 2
1. Poor design practice and remedy2. More counters3. Register as fast temporary storage4. Pipelined circuit
RTL Hardware Design by P. Chu
Outline
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Chapter 9 3
Synchronous design is the most important methodology
Poor practice in the past (to save chips)◦ Misuse of asynchronous reset◦ Misuse of gated clock ◦ Misuse of derived clock
RTL Hardware Design by P. Chu
1. Poor design practice and remedy
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Chapter 9 4RTL Hardware Design by P. Chu
Misuse of asynchronous reset Poor design: use reset to clear register in
normal operation. e.g., a poorly mod-10 counter
◦ Clear register immediately after the counter reaches 1010
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Chapter 9 5RTL Hardware Design by P. Chu
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Chapter 9 6RTL Hardware Design by P. Chu
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Chapter 9 7
Problem◦ Glitches in transition 1001 (9) => 0000 (0)◦ Glitches in aync_clr can reset the counter◦ How about timing analysis? (maximal clock rate)
Asynchronous reset should only be used for power-on initialization
RTL Hardware Design by P. Chu
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Chapter 9 8RTL Hardware Design by P. Chu
Remedy: load “0000” synchronously
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Chapter 9 9RTL Hardware Design by P. Chu
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Chapter 9 10RTL Hardware Design by P. Chu
Misuse of gated clock Poor design: use a and gate to disable the
clock to stop the register to get new value E.g., a counter with an enable signal
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Chapter 9 11RTL Hardware Design by P. Chu
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Chapter 9 12RTL Hardware Design by P. Chu
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Chapter 9 13
Problem◦ Gated clock width can be narrow◦ Gated clock may pass glitches of en◦ Difficult to design the clock distribution network
RTL Hardware Design by P. Chu
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Chapter 9 14RTL Hardware Design by P. Chu
Remedy: use a synchronous enable
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Chapter 9 15RTL Hardware Design by P. Chu
Misuse of derived clock Subsystems may run at different clock rate Poor design: use a derived slow clock for slow
subsystem
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Chapter 9 16
Problem◦ Multiple clock distribution network◦ How about timing analysis? (maximal clock rate)
RTL Hardware Design by P. Chu
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Chapter 9 17RTL Hardware Design by P. Chu
Better use a synchronous one-clock enable pulse
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Chapter 9 18RTL Hardware Design by P. Chu
E.g., second and minutes counter◦ Input: 1 MHz clock ◦ Poor design:
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Chapter 9 19RTL Hardware Design by P. Chu
◦ Better design
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Chapter 9 20RTL Hardware Design by P. Chu
VHDL code of poor design
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Chapter 9 21RTL Hardware Design by P. Chu
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Chapter 9 22RTL Hardware Design by P. Chu
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Chapter 9 23RTL Hardware Design by P. Chu
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Chapter 9 24RTL Hardware Design by P. Chu
Remedy: use a synchronous 1-clock pulse
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Chapter 9 25RTL Hardware Design by P. Chu
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Chapter 9 26
Power is a major design criteria now In CMOS technology
◦ Dynamic power is proportional to the switching frequency of transistors
◦ High clock rate implies high switching freq Clock manipulation
◦ Can reduce switching frequency◦ But should not be done at RT level
RTL Hardware Design by P. Chu
A word about power
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Chapter 9 27
Development flow: 1. Design/synthesize/verify a regular
synchronous subsystems 2(a). Derived clock: use special circuit (PLL
etc.) to obtain derived clocks2(b). Gated clock: use “power
optimization” software tool to convert some register into gated clock
RTL Hardware Design by P. Chu
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Chapter 9 28RTL Hardware Design by P. Chu
2. More counters Counter circulates a set of specific patterns Counter:
◦ Binary◦ Gray counter◦ Ring counter◦ Linear Feedback Shift Register (LFSR)◦ BCD counter
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Chapter 9 29RTL Hardware Design by P. Chu
Binary counter:◦ State follows binary counting sequence ◦ Use an incrementor for the next-state logic
d
clk
q
reset
+1r_reg r_next
reset
clk
q
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Chapter 9 30RTL Hardware Design by P. Chu
Gray counter:◦ State changes one-bit
at a time ◦ Use a Gray
incrementor
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Chapter 9 31RTL Hardware Design by P. Chu
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Chapter 9 32RTL Hardware Design by P. Chu
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Chapter 9 33
Circulate a single 1 E.g., 4-bit ring counter:
1000, 0100, 0010, 0001 n patterns for n-bit register Output appears as an n-phase signal Non self-correcting design
◦Insert “0001” at initialization and circulate the pattern in normal operation
◦Fastest counter
RTL Hardware Design by P. Chu
Ring counter
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Chapter 9 34RTL Hardware Design by P. Chu
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Chapter 9 35RTL Hardware Design by P. Chu
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Chapter 9 36RTL Hardware Design by P. Chu
Self-correcting design:shifting in a ‘1’ only when 3 MSBs are 000
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Chapter 9 37
A sifter reg with a special feedback circuit to generate the serial input
The feedback circuit performs xor operation over specific bits
Can circulate through 2n-1 states for an n-bit register
RTL Hardware Design by P. Chu
LFSR (Linear Feedback Shift Reg)
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Chapter 9 38RTL Hardware Design by P. Chu
E.g, 4-bit LFSR
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Chapter 9 39RTL Hardware Design by P. Chu
Property of LFSR◦ N-bit LFSR can cycle through 2n-1 states◦ The feedback circuit always exists ◦ The sequence is pseudorandom
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Chapter 9 40RTL Hardware Design by P. Chu
Application of LFSR◦ Pseudorandom: used in testing, data
encryption/decryption◦ A counter with simple next-state logic
e.g., 128-bit LFSR using 3 xor gates to circulate 2128-1 patterns (takes 1012 years for a 100 GHz system)
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Chapter 9 41RTL Hardware Design by P. Chu
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Chapter 9 42RTL Hardware Design by P. Chu
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Chapter 9 43RTL Hardware Design by P. Chu
Read remaining of Section 9.2.3 (design to including 00..00 state)
Read Section 9.2.4 (BCD counter, design similar to the second/minute counter in Section 9.1.3
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Chapter 9 44
Duty cycle: percentage of time that the signal is asserted
PWM: use a signal, w, to specify the duty cycle◦ Duty cycle is w/16 if w is not “0000”◦ Duty cycle is 16/16 if w is “0000”
Implemented by a binary counter with a special output circuit
RTL Hardware Design by P. Chu
PWM (pulse width modulation)
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Chapter 9 45RTL Hardware Design by P. Chu
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Chapter 9 46RTL Hardware Design by P. Chu
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Chapter 9 47RTL Hardware Design by P. Chu
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Chapter 9 48
RAM◦ RAM cell designed at transistor level◦ Cell use minimal area◦ Behave like a latch◦ For mass storage◦ Need a special interface logic
Register◦ D FF requires much larger area◦ Synchronous ◦ For small, fast storage◦ E.g., register file, fast FIFO, Fast CAM (content
addressable memory)
RTL Hardware Design by P. Chu
3. Register as fast temporary storage
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Chapter 9 49
Registers arranged as an 1-d array Each register is identified with an address Normally has 1 write port (with write enable
signal) Can has multiple read ports
RTL Hardware Design by P. Chu
Register file
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Chapter 9 50RTL Hardware Design by P. Chu
E.g., 4-word register file w/ 1 write port and two read ports
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Chapter 9 51
Register array:◦ 4 registers◦ Each register has an enable signal
Write decoding circuit:◦ 0000 if wr_en is 0 ◦ 1 bit asserted according to w_addr if wr_en is 1
Read circuit:◦ A mux for each read por
RTL Hardware Design by P. Chu
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Chapter 9 52RTL Hardware Design by P. Chu
2-d data type needed
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Chapter 9 53RTL Hardware Design by P. Chu
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Chapter 9 54RTL Hardware Design by P. Chu
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Chapter 9 55RTL Hardware Design by P. Chu
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Chapter 9 56RTL Hardware Design by P. Chu
FIFO Buffer
“Elastic” storage between two subsystems
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Chapter 9 57
Circular queue implementation Use two pointers and a “generic storage”
◦ Write pointer: point to the empty slot before the head of the queue
◦ Read pointer: point to the tail of the queue
RTL Hardware Design by P. Chu
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Chapter 9 58RTL Hardware Design by P. Chu
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Chapter 9 59
FIFO controller◦ Read and write pointers: 2 counters◦ Status circuit:
Difficult Design 1: Augmented binary counter Design 2: with status FFs
◦ LSFR as counter
RTL Hardware Design by P. Chu
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Chapter 9 60RTL Hardware Design by P. Chu
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Chapter 9 61RTL Hardware Design by P. Chu
Augmented binary counter: ◦ increase the counter by 1 bits◦ Use LSBs for as register address◦ Use MSB to distinguish full or empty
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Chapter 9 62RTL Hardware Design by P. Chu
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Chapter 9 63RTL Hardware Design by P. Chu
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Chapter 9 64RTL Hardware Design by P. Chu
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Chapter 9 65RTL Hardware Design by P. Chu
2 extra status FFs◦ Full_erg/empty_reg memorize the current staus◦ Initialized as 0 and 1◦ Modified according to wr and rd signals:
00: no change 11: advance read pointer/write pointer; full/empty no
change 10: advance write pointer; de-assert empty; assert full if
needed (when write pointer=read pointer) 01: advance read pointer; de-assert full; asserted empty if
needed (when write pointer=read pointer)
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Chapter 9 66RTL Hardware Design by P. Chu
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Chapter 9 67RTL Hardware Design by P. Chu
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Chapter 9 68RTL Hardware Design by P. Chu
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Chapter 9 69RTL Hardware Design by P. Chu
Non-binary counter for the pointer◦ Exact location does not matter as long as the write
pointer and read pointer follow the same pattern◦ Other counters can be used for the second scheme◦ E.g, use LFSR
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Chapter 9 70RTL Hardware Design by P. Chu
4. Pipelined circuit Two performance criteria:
◦ Delay: required time to complete one task◦ Throughput: number of tasks completed per unit
time. E.g., ATM machine
◦ Original: 3 minutes to process a transactiondelay: 3 min; throughput: 20 trans per hour
◦ Option 1: faster machine 1.5 min to processdelay: 1.5 min; throughput: 40 trans per hour
◦ Option 2: two machinesdelay: 3 min; throughput: 40 trans per hour
Pipelined circuit: increase throughput
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Chapter 9 71RTL Hardware Design by P. Chu
Pipeline: overlap certain operation E.g., pipelined laundry:
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Chapter 9 72
Non-pipelined:◦ Delay: 60 min◦ Throughput 1/60 load per min
Pipelined:◦ Delay: 60 min◦ Throughput k/(40+k*20) load per min
about 1/20 when k is large ◦ Throughput 3 times better than non-pipelined
RTL Hardware Design by P. Chu
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Chapter 9 73RTL Hardware Design by P. Chu
Pipelined combinational circuit
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Chapter 9 74RTL Hardware Design by P. Chu
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Chapter 9 75RTL Hardware Design by P. Chu
Adding pipeline to a comb circuit
Candidate circuit for pipeline:◦ enough input data to feed the pipelined circuit◦ throughput is a main performance criterion◦ comb circuit can be divided into stages with
similar propagation delays◦ propagation delay of a stage is much larger than
the setup time and the clock-to-q delay of the register.
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Chapter 9 76RTL Hardware Design by P. Chu
Procedure◦ Derive the block diagram of the original
combinational circuit and arrange the circuit as a cascading chain
◦ Identify the major components and estimate the relative propagation delays of these components
◦ Divide the chain into stages of similar propagation delays
◦ Identify the signals that cross the boundary of the chain
◦ Insert registers for these signals in the boundary.
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Chapter 9 77RTL Hardware Design by P. Chu
Pipelined comb multiplier
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Chapter 9 78RTL Hardware Design by P. Chu
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Chapter 9 79RTL Hardware Design by P. Chu
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Chapter 9 80RTL Hardware Design by P. Chu
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Chapter 9 81RTL Hardware Design by P. Chu
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Chapter 9 82RTL Hardware Design by P. Chu