DEPARTMENT OF ELECTRICAL &ELECTRONICS ENGINEERING DIGITAL DESIGN
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1 DEPARTMENT OF ELECTRICAL &ELECTRONICS ENGINEERING DIGITAL DESIGN Assoc. Prof. Dr. Burak Kelleci Spring 2018
2 OUTLINE Synchronous Logic Circuits Latch Flip-Flop Timing Counters Shift Register Synchronous Logic Circuits 2
3 SYNCHRONOUS LOGIC CIRCUITS Synchronous logic circuits unlike the combinational logic circuits remember previous inputs. The basic memory elements are latch and flip-flop. Clock signal is used to guarantee synchronous operation among the memory elements. In literature, there are asynchronous logic circuits which use feedback to generate memory. But the performance of these circuits depends on the gate delays. Therefore, it is not easy to guarantee their performance with the changes of supply voltage and temperature. Synchronous Logic Circuits 3
4 D-LATCH Latches operate based on the logic level of clock signal. Positive level triggered D- Latch copies its input to its output if the logic level of the gate ( also called clock ) signal is high. If the logic level of the gate signal is low, it will keep the last output at the falling edge gate signal. Synchronous Logic Circuits 4
5 D-LATCH Positive Level Triggered D-Latch Negative Level Triggered D-Latch Synchronous Logic Circuits 5
6 D-LATCH To synthesize D-Latch, a IF or CASE statement without fully defined outputs is adequate. If G is equal to 1, D input is assigned to Q output. However, if G is equal to 0, the operations is not defined. Therefore, synthesizer generates a latch to store the Q output if G is 0. Synchronous Logic Circuits 6
7 D-LATCH After the power-up and before the logic level of clock signal is high, the output of D-Latch is undefined. To prevent this, a asynchronous reset or set signal is used. The output is set to 0 if reset is high, 1 if set is high. During normal operation reset and set signals are 0. Synchronous Logic Circuits 7
8 SR-LATCH SR-Latch can be coded using data flow statements. However, the synthesizer can not synthesize this circuit because of the asynchronous feedback. Synchronous Logic Circuits 8
9 SR-LATCH Synthesizer friendly SR- Latch can be written using behavioral coding. However, synthesizer uses D-Latches to realize it. Synchronous Logic Circuits 9
10 JK-LATCH The S=0 and R=0 problem in SR-Latch is solved in JK- Latch. Since FPGA does not have JK-Latch, synthesizer realizes it using D-Latch Synchronous Logic Circuits 10
11 FLIP-FLOP Using Latches in a feedback may create unwanted oscillations. For example, the output of the circuit below oscillates is clk is 1 and x is 1. This unwanted operation is prevented by using edge triggered flip-flop instead of using level triggered latch Synchronous Logic Circuits 11
12 D FLIP-FLOP The widely used edgetriggered flip-flop is D Flip- Flop. If the D input is sampled at rising edge of clock, it is called rising edge triggered D Flip-Flop. If the D input is sampled at falling edge of clock, it is called falling edge triggered D Flip-Flop. Synchronous Logic Circuits 12
13 D FLIP-FLOP Rising Edge Triggered D Flip-Flop Falling Edge Triggered D Flip-Flop Synchronous Logic Circuits 13
14 D FLIP-FLOP In VHDL, process is sensitive to signal, so the rising edge or falling edge must be checked using a if statement. In Verilog, the edge of the clock signal is checked in the sensitivity list using posedge or negedge commands. The process and always are only sensitive to clock signal. Synchronous Logic Circuits 14
15 D FLIP-FLOP After the power-up the output of D Flip-Flop is not defined. To guarantee proper operation, asynchronous set and reset signals are used Synchronous Logic Circuits 15
16 D FLIP-FLOP If asynchronous set or reset signal changes at the same time with clock signal, it is possible that D Flip-Flop samples incorrectly. To prevent this issue a synchronous se-reset D Flip-Flop may be used. Synchronous Logic Circuits 16
17 D FLIP-FLOP Since the clock signal is routed to every flip-flop, special logic buffers are used on the clock signals. If a flip-flop should be driven with lower clock signal an enable signal is used Synchronous Logic Circuits 17
18 D FLIP-FLOP Synchronous Logic Circuits 18
19 T FLIP-FLOP T Flip-flop is widely used in counter design. Since there is no T Flip-Flop in the FPGA, the synthesizer uses D Flip-Flop to realize T Flip-Flop Synchronous Logic Circuits 19
20 TIMING The output of a flip-flop requires some time to change once the edge of the clock signal is applied. Before and after the rising or falling edge of the clock signal the D input must be kept constant. The amount of these time values depends on the technology, and must be satisfied for every flip-flop in a design. Synchronous Logic Circuits 20
21 TIMING In a complex design, there are combinational circuits among flip-flops. The clock signal also arrives at different times due to the delay on clock buffer circuits The timing requirement of flip-flops must be guaranteed even there is a delay due to the combinational circuits. Synchronous Logic Circuits 21
22 TIMING Many digital circuits have thousands or millions of flip-flops. The timing requirement of each must be satisfied. To check timing automatically, static timing analyzer is used. This tool calculates setup slack and hold slack for every flipflop in the design. If the slack is below zero, an error is issued. Synthesizer, place and route tool use static timing analyzer results to change the circuit in order to meet timing. Synchronous Logic Circuits 22
23 TIMING For successful operation, setup slack and hold slack must be greater than zero for every specified temperature, supply voltage and process changes. If the slack is below zero for any condition, the circuit will not work at that condition. It is not easy to find timing problems on the field, so all digital circuits must be timing closed before released to the field. Synchronous Logic Circuits 23
24 TIMING WITH VIVADO Static timing analyzer in Vivado requires frequency of clocks used in design and the relationship among clocks to calculate setup slack and hold slack. Clock signal is defined in XDC file using create_clock If the rising edge time and falling edge time values are not given, it is assumed that the clock has 50% duty cycle. The frequency of the clock generator on BASYS3 is 100MHz. Synchronous Logic Circuits 24
25 TIMING WITH VIVADO If a lower frequency clock is generated using a clock defined using create_clock command, the relationship between these clocks must also be defined. For example, clk_2 net is a clock signal and generated from CLK signal by dividing its frequency by 2 If the CLK signal frequency is 100MHz, then clk_2 frequency is 50MHz. Synchronous Logic Circuits 25
26 TIMING WITH VIVADO Defining only clock signal properties is not enough for successful timing closure. The relationship between input signals and clock signal must be also defined. For example, if there is a 5ns between input and clock Synchronous Logic Circuits 26
27 TIMING WITH VIVADO The delay between output and clock edge is defined using For example, to define 2ns delay between output and clock Synchronous Logic Circuits 27
28 TIMING WITH VIVADO Some signals, such as reset, do not have any timing requirement. In this case they defined as The time of the edge of clock signal changes due to noise. This unwanted uncertainty is defined as A system wide jitter is defined as Synchronous Logic Circuits 28
29 COUNTERS Counters are used to generate low frequency clock, trigger an event after a predetermined time, and etc. A N-Bit counter counts up to 2 N -1. After it reaches its maximum value, it will return to 0. Synchronous Logic Circuits 29
30 COUNTERS If the counter needs to count a value less than its maximum value allowed by number of bits, it should be checked using a if statement. To calculate required number of bits, chose integer N using this formula Synchronous Logic Circuits 30
31 SHIFT REGISTER Shift register shifts input data into the next flip-flop at every clock cycle. It is used to convert serial data to parallel or parallel data to serial. Synchronous Logic Circuits 31
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