EECS 427 Discussion 1
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1 EECS 427 Discussion 1 Tuesday, September 9,
2 Administrative Stuff CAD1 due yesterday Homework 1 due Thursday, beginning of lecture Homework 2 due week from today Sept. 16 Due at beginning of Tuesday s lecture List of group members (groups typically 3-4 people) CAD2 due next Monday, Sept. 15 CAD2 again an individual assignment CAD3 and on group assignments Out of town again this weekend (conference) Extra office hours Friday, Sept pm Will be available by again No discussion i next Tuesday instead, CAD3 discussed d on Friday? University of Michigan 2 2 2
3 Questions regarding CAD1??? University of Michigan 3 3 3
4 Layout Tips & Tricks Creating a hierarchical layout Don t have to copy & paste geometries! Instantiate previous layouts using Create->Instance (Shortcut: i) Viewing hierarchy Two ways to change number hierarchy display on screen. Through Menu Options -> Display Change the Display levels l Through Hot Key Shift+f: show all hierarchy Ctrl+f: hide all hierarchy University of Michigan 4 4 4
5 Layout Tips & Tricks (cont d) Editing in hierarchy Can open up layout using Library Manager (saved changes will be reflected after redraw Ctrl+r) Can go to Design->Hierarchy->Descend (Shortcut: X) Opens up design in current window Return to previous level in hierarchy: Design-> Hierarchy->Return (Shortcut: B) Adding geometries Rectangle -> r Path -> p Label -> l University of Michigan 5 5 5
6 Layout Tips & Tricks (cont d) Modifying geometries Copy -> c Move -> m (whole shape only) Chop -> C Merge -> M Stretch -> s (whole shape or edge) Rotating and Flipping Aft l ti t i t t HIT F3! After selecting copy, move, create instance, etc., HIT F3! ** Hitting F3 in any mode will pop-up the associated form** Other useful commands Properties -> q Search -> S Select all -> Ctrl+a Deselect all -> Ctrl+d University of Michigan 6 6 6
7 LSW Management By default, LSW window shows TONS of layers!! You can set the LSW to show only the layers that are in your layouts [In Virtuoso Window] IBM_PDK->LSW->Present Layers Only To add more layers that are not in the LSW [In LSW Window] Edit->Set Valid Layers University of Michigan 7 7 7
8 Gravity One of the functions that is turned off by default is gravity THANK GOODNESS!! Gravity allows you to lock on to an edge or corner of a shape when your mouse cursor get close Annoying or helpful you be the judge!! To turn it on or turn it off. Options->Layout Editor (Shortcut: E) in Layout view Click on Gravity On to toggle between the on and off mode Can also toggle on and off using shortcut: g University of Michigan 8 8 8
9 Hierarchical Design Make sure you use hierarchical design from now on!! Will make life a whole lot easier University of Michigan 9 9 9
10 Circuit Design General Flow for any design Schematic Creation (how is this circuit supposed to function?) Symbol Generation (more specific symbols useful in hierarchy) 10 Digital Logic Simulation (does it function as expected?) Analog Simulation Testbench Creation (does spice backup digital simulation?) Layout DRC LVS PEX -> parasitic extraction Backannotation ti and Spice simulation (how does circuit it behave with all of parasitics?) University of Michigan 10 10
11 Circuit Design (cont d) We re not done ITERATE!!!!! Modify and possibly redesign to hit specifications (size up gates to meeting timing, relocate cells to reduce interconnect capacitance, etc.) 11 University of Michigan 11 11
12 Backannotation Generally in this class, backannotate to 2 places Digital Simulation (Verilog) Analog Simulation (Spice) How do we do this? Already learned analog simulation ( calibre view generation using PEX) Digital simulation backannotation described in Tutorial University of Michigan 12 12
13 Tutorial 1.5 Main idea Add Verilog delay property, td, to a transistor to represent some delay (e.g., CLK-Q, setup, hold) Use delays to get more accurate representation in simulations Review D Q 13 Clk Clk T D 1) t hold t su 2) Q 3) t c-q University of Michigan 13 13
14 Tutorial 1.5 (cont d) How do setup and hold affect timing? 14 D Q Clk Clk T D Q t tsu (closer D transitions before Clk, CLK-Q Qd delay) University of Michigan 14 14
15 Tutorial 1.5 (cont d) How do setup and hold affect timing? 15 D Q Clk Clk T D Q t thold (closer D transitions after Clk, CLK-Q Qd delay) University of Michigan 15 15
16 Tutorial 1.5 (cont d) How to measure setup and hold? Setup Store a 1 (0) to the flip-flop and allow to settle for one clock cycle Next clock cycle, change D input >=0.25 clock cycle before rising edge and measure CLK-Q delay (50% CLK -> 50% Q) Run parametric sweep adjusting D transition later and later closer to rising edge of CLK (make sure hold time is long too, >=0.25 clock cycle, otherwise hold will affect too!!) Setup constraint is time in parametric sweep which causes 5% increase in CLK-Q delay (calculated in 2 nd step) 16 University of Michigan 16 16
17 Tutorial 1.5 (cont d) How to measure setup and hold? Hold Store a 1 (0) to the flip-flop and allow to settle for one clock cycle Next clock cycle, change D input >=0.25 clock cycle after rising edge and measure CLK-Q (should be similar to 2 nd step of setup time) Run parametric sweep make D transition earlier and earlier (making sure setup time is long, >= 0.25 clock cycle) Hold constraint is time in parametric sweep which causes Hold constraint is time in parametric sweep which causes 5% increase in CLK-Q delay (calculated in 2 nd step) 17 University of Michigan 17 17
18 Tutorial 1.5 (cont d) Once we characterize setup & hold for cell, backannotate delays into Verilog simulation!! 18 Further reading Insert E (pp ) DONE!!! University of Michigan 18 18
19 Supplemental Slides 19 University of Michigan 19 19
20 Setup/Hold Illustrations Circuit before clock arrival (Setup-1 case) CN TG1 Inv2 D 1 S M D Clk-Q Delay Q M Inv1 CP T Clk-Q Data Clock T Setup-1 T Setup-1 t=0 Digital Integrated Circuits 2nd Sequential Circuits
21 Setup/Hold Illustrations Circuit before clock arrival (Setup-1 case) CN TG1 Inv2 D 1 S M D Clk-Q Delay Q M Inv1 CP T Clk-Q Data Clock T Setup-1 T Setup-1 t=0 Digital Integrated Circuits 2nd Sequential Circuits
22 Setup/Hold Illustrations Circuit before clock arrival (Setup-1 case) CN TG1 Inv2 D 1 S M D Q Clk-Q Delay M Inv1 CP T Clk-Q Data Clock T Setup-1 T Setup-1 t=0 Digital Integrated Circuits 2nd Sequential Circuits
23 Setup/Hold Illustrations Circuit before clock arrival (Setup-1 case) CN TG1 Inv2 D 1 S M D Q M Clk-Q Delay Inv1 T Clk-Q CP Data Clock T Setup-1 T Setup-1 t=0 Digital Integrated Circuits 2nd Sequential Circuits
24 Setup/Hold Illustrations Circuit before clock arrival (Setup-1 case) CN D TG1 D 1 S M Inv2 Q M Clk-Q Delay T Clk-Q Inv1 CP Data T Setup-1 Clock T Setup-1 t=0 Digital Integrated Circuits 2nd Sequential Circuits
25 Setup/Hold Illustrations Hold-1 case CN D TG1 Clk-Q Delay Inv2 D 1 S M Q M Inv1 CP 0 T Clk-Q T Hold-1 Clock T Hold-1 Data t=0 Digital Integrated Circuits 2nd Sequential Circuits
26 Setup/Hold Illustrations Hold-1 case CN TG1 Inv2 D 1 S M D Q M Clk-Q Delay Inv1 CP 0 T Clk-Q Clock Data T Hold-1 T Hold-1 t=0 Digital Integrated Circuits 2nd Sequential Circuits
27 Setup/Hold Illustrations Hold-1 case CN TG1 Inv2 D 1 S M D Q M Clk-Q Delay Inv1 0 CP T Clk-Q T Hold-1 Clock Data T Hold-1 t=0 Digital Integrated Circuits 2nd Sequential Circuits
28 Setup/Hold Illustrations Hold-1 case CN TG1 Inv2 D 1 S M D Q M Clk-Q Delay Inv1 0 CP T Clk-Q Clock Data T Hold-1 T Hold-1 t=0 Digital Integrated Circuits 2nd Sequential Circuits
29 Setup/Hold Illustrations Hold-1 case CN TG1 Inv2 D 1 S M D Q T Clk-Q M Clk-Q Delay Inv1 CP 0 Clock Data T Hold-1 T Hold-1 t=0 Digital Integrated Circuits 2nd Sequential Circuits
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