Collections of flip-flops with similar controls and logic
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1 Ensembles of flip-flops Registers Shift registers Counters Autumn 2010 CSE370 - XV - Registers and Counters 1 Registers Collections of flip-flops with similar controls and logic stored values somehow related (for example, form binary value) share clock, reset, and set lines similar logic at each stage Examples shift registers counters R S R S R S R S IN1 IN2 IN3 IN4 Autumn 2010 CSE370 - XV - Registers and Counters 2
2 Shift register Holds samples of input store last 4 input values in sequence 4-bit shift register: IN Autumn 2010 CSE370 - XV - Registers and Counters 3 Universal shift register Holds 4 values serial or parallel inputs serial or parallel outputs permits shift left or right shift in new values from left or right output left_in left_out clear s0 s1 input right_out right_in clock clear sets the register contents and output to 0 s1 and s0 determine the shift function s0 s1 function 0 0 hold state 0 1 shift right 1 0 shift left 1 1 load new input Autumn 2010 CSE370 - XV - Registers and Counters 4
3 Design of universal shift register Consider one of the 4 flip-flops new value at next clock cycle: clear s0 s1 new value output output value of FF to left (shift right) output value of FF to right (shift left) input Nth cell to N-1th cell Q D to N+1th cell CLEAR s0 and s1 control mux Q[N-1] (left) Input[N] Q[N+1] (right) Autumn 2010 CSE370 - XV - Registers and Counters 5 Shift register application Parallel-to-serial conversion for serial transmission parallel outputs parallel inputs serial transmission Autumn 2010 CSE370 - XV - Registers and Counters 6
4 Pattern recognizer Combinational function of input samples in this case, recognizing the pattern 1001 on the single input signal OUT IN Autumn 2010 CSE370 - XV - Registers and Counters 7 Counters Sequences through a fixed set of patterns in this case, 1000, 0100, 0010, 0001 if one of the patterns is its initial state (by loading or set/reset) IN Autumn 2010 CSE370 - XV - Registers and Counters 8
5 Activity How does this counter work (assuming it starts in state 0000)? IN Counts through the sequence: 1000, 1100, 1110, 1111, 0111, 0011, 0001, 0000 Known as Mobius (or Johnson) counter Autumn 2010 CSE370 - XV - Registers and Counters 9 Binary counter Logic between registers (not just multiplexer) XOR decides when bit should be toggled always for low-order bit, only when first bit is true for second bit, and so on Autumn 2010 CSE370 - XV - Registers and Counters 10
6 How fast is our counter? Period > T propff + T propcl + T setupff Period > 3.6ns + max(t propcl ) {over all paths from Qs to Ds} + 1.8ns Period > 5.4ns + T propxor + T propand3 Frequency < 1/Period Autumn 2010 CSE370 - XV - Registers and Counters 11 Four-bit binary synchronous up-counter Standard component with many applications positive edge-triggered FFs w/ synchronous load and clear inputs parallel load data from D, C, B, A enable inputs: must be asserted to enable counting RCO: ripple-carry out used for cascading counters high when counter is in its highest state 1111 implemented using an AND gate (2) RCO goes high (1) Low order 4-bits = 1111 EN D C B A LOAD CLR RCO QD QC QB QA Autumn 2010 CSE370 - XV - Registers and Counters 12
7 Eight-bit counter Use of enable to allow high-order four bits to count Always enable 4 low-order bits Enable 4 high-order bits only when RCO is high for low-order bits (reached 15) (2) RCO goes high EN D C B A LOAD CLR RCO QD QC QB QA (3) High order 4-bits are incremented (1) Low order 4-bits = 1111 "1 EN D C B A LOAD CLR RCO QD QC QB QA Autumn 2010 CSE370 - XV - Registers and Counters 13 Offset counters Starting offset counters use of synchronous load e.g., 0110, 0111, 1000, 1001, 1010, 1011, 1100, 1101, 1111, 0110, Ending offset counter EN RCO D QD C QC B QB A QA LOAD CLR comparator for ending value e.g., 0000, 0001, 0010,..., 1100, 1101, 0000 EN Combinations of the above (start and stop value) Speed? RCO D QD C QC B QB A QA LOAD CLR Autumn 2010 CSE370 - XV - Registers and Counters 14
8 Sequential logic and programmable logic FFs added to PLAs, PALs, and ROMs FFs added to FPGAs Other features Feedback of Qs back in as inputs Multiplexor for selecting combinational or sequential function Arithmetic mode in FPGAs Many other options.. Autumn 2010 CSE370 - XV - Registers and Counters 15 The 22V10 PAL Combinational logic elements (SoP) Sequential logic elements (D-FFs) Up to 10 outputs Up to 10 FFs Up to 22 inputs A typical PAL Autumn 2010 CSE370 - XV - Registers and Counters 16
9 Implementation using PALs Programmable logic building block for sequential logic macro-cell: FF + logic D-FF two-level logic capability like PAL (e.g., 8 product terms) D Q Q Autumn 2010 CSE370 - XV - Registers and Counters 17 22V10 PAL Macro Cell Sequential logic element + output/input selection Autumn 2010 CSE370 - XV - Registers and Counters 18
10 Cyclone II FPGA Logic Array Blocks (LABs) Autumn 2010 CSE370 - XV - Registers and Counters 19 Cyclone II FPGA Logic Element (LE) (16 per LAB) Autumn 2010 CSE370 - XV - Registers and Counters 20
11 Logic Element (LE) in Normal Mode Autumn 2010 CSE370 - XV - Registers and Counters 21 Logic Element (LE) in Arithmetic Mode Autumn 2010 CSE370 - XV - Registers and Counters 22
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