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8d2c9b0e16 | 2 years ago | |
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.. | ||
custom_layout/magic | 2 years ago | |
doc | 2 years ago | |
klayout | 2 years ago | |
lvs | 2 years ago | |
magic | 2 years ago | |
sim | 2 years ago | |
sky130A | 2 years ago | |
xschem | 2 years ago | |
10T.png | 2 years ago | |
gds.py | 2 years ago | |
local_eval.png | 2 years ago | |
local_eval.png.1 | 2 years ago | |
readme.md | 2 years ago | |
src | 2 years ago | |
toysram_bit.gds | 2 years ago |
readme.md
Custom Cell Design
Prerequisites
- Magic (VERSION TODO) - Layout
- Xschem (VERSION TODO) - Schematic capture
- Netgen-lvs (VERSION TODO) - Layout Vs. Schematic
- Ngspice (VERSION TODO) - SPICE simulation
10T RAM Cell
- domino 10T 2R1W
- domino background
- clocked logic family (each gate has a clock)
- clock low, 'precharge' -> node high
- clock high, 'evaluate' -> node based on input(s), can only go low now
- clock signal ensures critical path only traverses through cells during 'evaluate'
- since only switches in one direction, no pmos pullups needed
- effective transistor load is lower for previous stage
- smaller circuit for given capacitance, or
- stronger drive for given capacitance
- faster since no pmos/nmos contention during switching
- effective transistor load is lower for previous stage
- noninverting logic
- each domino cell is a single-stage dynamic cell followed by an inverter
- glitchless
- clocked logic family (each gate has a clock)
- domino background
- array
- in cell, read is bottom of domino (evaluate)
- subarray is 16x12 cells
- 'local eval' is top of domino (precharge) and inverter (NAND2 between (2) subarrays)
- (8) subarrays create 64wx24b 'hard' array
- surrounding logical array does strobe/addr predecode and addr/data latching; (3) subarrays for 64x72_2R1W
- DDR adds double in/out latches, early/late select, and DDR-compatible strobe
Local Eval
- precharge
- 2:1 select
- nand2 with precharge pmos pullups on RBL_R, RBL_R
- insert the pullups between p/n
Precharge Pullup Only
-
magic
- load sky130_fd_sc_hd__inv_1 (open technology mgr)
gds
in console- now have sky130_fd_sc__hd__inv_1.gds
-
klayout sky130_fd_sc__hd__inv_1.gds
- hack
- check with
magic -dnull -noconsole -rcfile magicdrc_pullup.tcl toysram_local_pullup.gds
while hacking - drc clean with nfet side mostly removed; can't remove layer 81 (get drc); because i haven't removed bottom of cell yet (gnd, etc)?
-
now stack these with 12x2 nands to make local_eval_stack
Tools
cd xschem
export PDK_ROOT=/data/projects/open_pdks/sky130
# yikes! nfet references through current dir
ln -s $PDK_ROOT/sky130B/libs.tech/xschem/sky130_fd_pr sky130_fd_pr
xschem --rcfile $PDK_ROOT/sky130B/libs.tech/xschem/xschemrc 10T_toy_xschem.sch
xschem --rcfile $PDK_ROOT/sky130B/libs.tech/xschem/xschemrc local_eval.sch
cd magic
export PDK_ROOT=/data/projects/open_pdks/sky130
magic -rcfile .magic_tech/.magicrc 10T_toy_magic.mag
console:
'gds' creates gds
'lef writeall' creates lef
magic -rcfile .magic_tech/.magicrc local_eval.mag
# use options->cell mgr to select cell; then can see layout (top is (UNNAMED) at start)
# windows->set editable
# box upper pmos section and 'a' (select all)
# 'move up 50'
Setup
A template .magicrc
file can be found in magic/.magic_tech
. This
config file works with the SKY130 technology. Changes will need to be made to
the .magicrc file so that PDK_ROOT
points to this repo. All the
relevant Magic tech files are also found in magic/.magic_tech
.
The SKY130 model files are found in sky130A/
which are used when
simulating a SPICE file in Ngspice.
A tcl script to generate SPICE from Magic layout can be found in
magic/magic_spice_extract.tcl
. A tcl script to run LVS can be
found in lvs/runlvs_single.sh
.