diff --git a/CONTRIBUTING.md b/CONTRIBUTING.md index 6eceeaaf..582a998e 100644 --- a/CONTRIBUTING.md +++ b/CONTRIBUTING.md @@ -20,7 +20,7 @@ other OpenRAM features. Please see the README.md file on how to run the unit tests. Unit tests should work in all technologies. We will run the tests on your contributions before they will be accepted. -# Internally Development +# Internal Development For internal development, follow all of the following steps EXCEPT do not fork your own copy. Instead, create a branch in our private repository @@ -32,21 +32,21 @@ All unit tests should pass first. 1. One time, create a GitHub account at http://github.com 2. Create a fork of the OpenRAM project on the github web page: - https://github.com/mguthaus/OpenRAM + https://github.com/vlsida/openram It is on the upper right and says "Fork": This will make your own OpenRAM repository on GitHub in your account. 3. Clone your repository (or use an existing cloned copy if you've already done this once): ``` - git clone https://github.com//OpenRAM.git - cd OpenRAM + git clone https://github.com//oepnram.git + cd openram ``` 4. Set up a new upstream that points to MY OpenRAM repository that you forked (only first time): ``` - git remote add upstream https://github.com/mguthaus/OpenRAM.git + git remote add upstream https://github.com/vlsida/openram.git ``` You now have two remotes for this project: * origin which points to your GitHub fork of the project. You can read diff --git a/compiler/bitcells/replica_bitcell_1rw_1r.py b/compiler/bitcells/replica_bitcell_1rw_1r.py new file mode 100644 index 00000000..790a6251 --- /dev/null +++ b/compiler/bitcells/replica_bitcell_1rw_1r.py @@ -0,0 +1,23 @@ +import design +import debug +import utils +from tech import GDS,layer + +class replica_bitcell_1rw_1r(design.design): + """ + A single bit cell which is forced to store a 0. + This module implements the single memory cell used in the design. It + is a hand-made cell, so the layout and netlist should be available in + the technology library. """ + + pin_names = ["bl0", "br0", "bl1", "br1", "wl0", "wl1", "vdd", "gnd"] + (width,height) = utils.get_libcell_size("replica_cell_1rw_1r", GDS["unit"], layer["boundary"]) + pin_map = utils.get_libcell_pins(pin_names, "replica_cell_1rw_1r", GDS["unit"], layer["boundary"]) + + def __init__(self): + design.design.__init__(self, "replica_cell_1rw_1r") + debug.info(2, "Create replica bitcell 1rw+1r object") + + self.width = replica_bitcell_1rw_1r.width + self.height = replica_bitcell_1rw_1r.height + self.pin_map = replica_bitcell_1rw_1r.pin_map diff --git a/compiler/characterizer/functional.py b/compiler/characterizer/functional.py index d6579ab5..b69ab2e8 100644 --- a/compiler/characterizer/functional.py +++ b/compiler/characterizer/functional.py @@ -20,6 +20,10 @@ class functional(simulation): def __init__(self, sram, spfile, corner): simulation.__init__(self, sram, spfile, corner) + + # Seed the characterizer with a constant seed for unit tests + if OPTS.is_unit_test: + random.seed(12345) self.set_corner(corner) self.set_spice_constants() @@ -31,7 +35,15 @@ class functional(simulation): self.stored_words = {} self.write_check = [] self.read_check = [] - + + def set_spice_constants(self): + """Spice constants for functional test""" + simulation.set_spice_constants(self) + #Heuristic increase for functional period. Base feasible period typically does not pass the functional test + #for column mux of this size. Increase the feasible period by 20% for this case. + if self.sram.words_per_row >= 4: + self.period = self.period*1.2 + def run(self): # Generate a random sequence of reads and writes self.write_random_memory_sequence() diff --git a/compiler/characterizer/simulation.py b/compiler/characterizer/simulation.py index 3d156d2d..e624250a 100644 --- a/compiler/characterizer/simulation.py +++ b/compiler/characterizer/simulation.py @@ -3,7 +3,6 @@ from design import design import debug import math import tech -import random from .stimuli import * from .trim_spice import * from .charutils import * @@ -209,14 +208,14 @@ class simulation(): t_current, t_current+self.period) elif op == "write": - comment = "\tWriting {0} to address {1} (from port {2}) during cylce {3} ({4}ns - {5}ns)".format(word, + comment = "\tWriting {0} to address {1} (from port {2}) during cycle {3} ({4}ns - {5}ns)".format(word, addr, port, int(t_current/self.period), t_current, t_current+self.period) else: - comment = "\tReading {0} from address {1} (from port {2}) during cylce {3} ({4}ns - {5}ns)".format(word, + comment = "\tReading {0} from address {1} (from port {2}) during cycle {3} ({4}ns - {5}ns)".format(word, addr, port, int(t_current/self.period), diff --git a/compiler/example_config_freepdk45.py b/compiler/example_config_freepdk45.py index 5e7a689f..ac02e514 100644 --- a/compiler/example_config_freepdk45.py +++ b/compiler/example_config_freepdk45.py @@ -9,10 +9,3 @@ temperatures = [25] output_path = "temp" output_name = "sram_{0}_{1}_{2}".format(word_size,num_words,tech_name) -#Setting for multiport -# netlist_only = True -# bitcell = "pbitcell" -# replica_bitcell="replica_pbitcell" -# num_rw_ports = 1 -# num_r_ports = 0 -# num_w_ports = 1 diff --git a/compiler/example_config_scn4m_subm.py b/compiler/example_config_scn4m_subm.py index 436d0ffd..4e3b5aa2 100644 --- a/compiler/example_config_scn4m_subm.py +++ b/compiler/example_config_scn4m_subm.py @@ -3,16 +3,9 @@ num_words = 16 tech_name = "scn4m_subm" process_corners = ["TT"] -supply_voltages = [ 5.0 ] +supply_voltages = [ 3.3 ] temperatures = [ 25 ] output_path = "temp" output_name = "sram_{0}_{1}_{2}".format(word_size,num_words,tech_name) -#Setting for multiport -netlist_only = True -bitcell = "pbitcell" -replica_bitcell="replica_pbitcell" -num_rw_ports = 1 -num_r_ports = 1 -num_w_ports = 1 \ No newline at end of file diff --git a/compiler/modules/control_logic.py b/compiler/modules/control_logic.py index e6662617..4ac32967 100644 --- a/compiler/modules/control_logic.py +++ b/compiler/modules/control_logic.py @@ -18,13 +18,14 @@ class control_logic(design.design): Dynamically generated Control logic for the total SRAM circuit. """ - def __init__(self, num_rows, port_type="rw"): + def __init__(self, num_rows, words_per_row, port_type="rw"): """ Constructor """ name = "control_logic_" + port_type design.design.__init__(self, name) debug.info(1, "Creating {}".format(name)) self.num_rows = num_rows + self.words_per_row = words_per_row self.port_type = port_type if self.port_type == "rw": @@ -92,14 +93,25 @@ class control_logic(design.design): from importlib import reload c = reload(__import__(OPTS.replica_bitline)) replica_bitline = getattr(c, OPTS.replica_bitline) - # FIXME: These should be tuned according to the size! - delay_stages = 4 # Must be non-inverting - delay_fanout = 3 # This can be anything >=2 + + delay_stages, delay_fanout = self.get_delay_chain_size() bitcell_loads = int(math.ceil(self.num_rows / 2.0)) self.replica_bitline = replica_bitline(delay_stages, delay_fanout, bitcell_loads, name="replica_bitline_"+self.port_type) self.add_mod(self.replica_bitline) - + def get_delay_chain_size(self): + """Determine the size of the delay chain used for the Sense Amp Enable """ + # FIXME: These should be tuned according to the additional size parameters + delay_fanout = 3 # This can be anything >=2 + # Delay stages Must be non-inverting + if self.words_per_row >= 8: + delay_stages = 8 + elif self.words_per_row == 4: + delay_stages = 6 + else: + delay_stages = 4 + return (delay_stages, delay_fanout) + def setup_signal_busses(self): """ Setup bus names, determine the size of the busses etc """ diff --git a/compiler/modules/replica_bitline.py b/compiler/modules/replica_bitline.py index 8095d049..84aaa63d 100644 --- a/compiler/modules/replica_bitline.py +++ b/compiler/modules/replica_bitline.py @@ -189,16 +189,66 @@ class replica_bitline(design.design): if pin.layer != "metal1": continue - self.add_path("metal1", [pin_right, pin_extension]) + pin_width_ydir = pin.uy()-pin.by() + #Width is set to pin y width to avoid DRC issues with m1 gaps + self.add_path("metal1", [pin_right, pin_extension], pin_width_ydir) self.add_power_pin("gnd", pin_extension) - # for multiport, need to short wordlines to each other so they all connect to gnd + # for multiport, need to short wordlines to each other so they all connect to gnd. wl_last = self.wl_list[self.total_ports-1]+"_{}".format(row) pin_last = self.rbl_inst.get_pin(wl_last) + self.short_wordlines(pin, pin_last, "right", False, row, vector(self.m3_pitch,0)) + + def short_wordlines(self, wl_pin_a, wl_pin_b, pin_side, is_replica_cell, cell_row=0, offset_x_vec=None): + """Connects the word lines together for a single bitcell. Also requires which side of the bitcell to short the pins.""" + #Assumes input pins are wordlines. Also assumes the word lines are horizontal in metal1. Also assumes pins have same x coord. + #This is my (Hunter) first time editing layout in openram so this function is likely not optimal. + if self.total_ports > 1: + #1. Create vertical metal for all the bitlines to connect to + #m1 needs to be extended in the y directions, direction needs to be determined as every other cell is flipped + correct_y = vector(0, 0.5*drc("minwidth_metal1")) + #x spacing depends on the side being drawn. Unknown to me (Hunter) why the size of the space differs by the side. + #I assume this is related to how a wire is draw, but I have not investigated the issue. + if pin_side == "right": + correct_x = vector(0.5*drc("minwidth_metal1"), 0) + if offset_x_vec != None: + correct_x = offset_x_vec + else: + correct_x = vector(1.5*drc("minwidth_metal1"), 0) + + if wl_pin_a.uy() > wl_pin_b.uy(): + self.add_path("metal1", [wl_pin_a.rc()+correct_x+correct_y, wl_pin_b.rc()+correct_x-correct_y]) + else: + self.add_path("metal1", [wl_pin_a.rc()+correct_x-correct_y, wl_pin_b.rc()+correct_x+correct_y]) + elif pin_side == "left": + if offset_x_vec != None: + correct_x = offset_x_vec + else: + correct_x = vector(1.5*drc("minwidth_metal1"), 0) + + if wl_pin_a.uy() > wl_pin_b.uy(): + self.add_path("metal1", [wl_pin_a.lc()-correct_x+correct_y, wl_pin_b.lc()-correct_x-correct_y]) + else: + self.add_path("metal1", [wl_pin_a.lc()-correct_x-correct_y, wl_pin_b.lc()-correct_x+correct_y]) + else: + debug.error("Could not connect wordlines on specified input side={}".format(pin_side),1) - correct = vector(0.5*drc("minwidth_metal1"), 0) - self.add_path("metal1", [pin.rc()-correct, pin_last.rc()-correct]) - + #2. Connect word lines horizontally. Only replica cell needs. Bitline loads currently already do this. + for port in range(self.total_ports): + if is_replica_cell: + wl = self.wl_list[port] + pin = self.rbc_inst.get_pin(wl) + else: + wl = self.wl_list[port]+"_{}".format(cell_row) + pin = self.rbl_inst.get_pin(wl) + + if pin_side == "left": + self.add_path("metal1", [pin.lc()-correct_x, pin.lc()]) + elif pin_side == "right": + self.add_path("metal1", [pin.rc()+correct_x, pin.rc()]) + + + def route_supplies(self): """ Propagate all vdd/gnd pins up to this level for all modules """ @@ -217,8 +267,13 @@ class replica_bitline(design.design): # Replica bitcell needs to be routed up to M3 pin=self.rbc_inst.get_pin("vdd") - # Don't rotate this via to vit in FreePDK45 - self.add_power_pin("vdd", pin.center(), rotate=0) + # Don't rotate this via to vit in FreePDK45. In the custom cell, the pin cannot be placed + # directly on vdd or there will be a drc error with a wordline. Place the pin slightly farther + # away then route to it. A better solution would be to rotate the m1 in the via or move the pin + # a m1_pitch below the entire cell. + pin_extension = pin.center() - vector(0,self.m1_pitch) + self.add_power_pin("vdd", pin_extension, rotate=0) + self.add_path("metal1", [pin.center(), pin_extension]) for pin in self.rbc_inst.get_pins("gnd"): self.add_power_pin("gnd", pin.center()) @@ -267,9 +322,10 @@ class replica_bitline(design.design): wl_last = self.wl_list[self.total_ports-1] pin = self.rbc_inst.get_pin(wl) pin_last = self.rbc_inst.get_pin(wl_last) + x_offset = self.short_wordlines(pin, pin_last, "left", True) - correct = vector(0.5*drc("minwidth_metal1"), 0) - self.add_path("metal1", [pin.lc()+correct, pin_last.lc()+correct]) + #correct = vector(0.5*drc("minwidth_metal1"), 0) + #self.add_path("metal1", [pin.lc()+correct, pin_last.lc()+correct]) # DRAIN ROUTE # Route the drain to the vdd rail diff --git a/compiler/modules/sense_amp.py b/compiler/modules/sense_amp.py index 6187b37a..3a857efd 100644 --- a/compiler/modules/sense_amp.py +++ b/compiler/modules/sense_amp.py @@ -25,6 +25,7 @@ class sense_amp(design.design): def input_load(self): #Input load for the bitlines which are connected to the source/drain of a TX. Not the selects. + from tech import spice, parameter bitline_pmos_size = 8 #FIXME: This should be set somewhere and referenced. Probably in tech file. return spice["min_tx_drain_c"]*(bitline_pmos_size/parameter["min_tx_size"])#ff diff --git a/compiler/modules/single_level_column_mux_array.py b/compiler/modules/single_level_column_mux_array.py index a74f8514..d78e0fdc 100644 --- a/compiler/modules/single_level_column_mux_array.py +++ b/compiler/modules/single_level_column_mux_array.py @@ -218,7 +218,7 @@ class single_level_column_mux_array(design.design): rotate=90) def analytical_delay(self, vdd, slew, load=0.0): - from tech import spice + from tech import spice, parameter r = spice["min_tx_r"]/(self.mux.ptx_width/parameter["min_tx_size"]) #Drains of mux transistors make up capacitance. c_para = spice["min_tx_drain_c"]*(self.mux.ptx_width/parameter["min_tx_size"])*self.words_per_row#ff diff --git a/compiler/sram_base.py b/compiler/sram_base.py index cc8247ed..a1be1f30 100644 --- a/compiler/sram_base.py +++ b/compiler/sram_base.py @@ -223,13 +223,13 @@ class sram_base(design): from control_logic import control_logic # Create the control logic module for each port type if OPTS.num_rw_ports>0: - self.control_logic = self.control_logic_rw = control_logic(num_rows=self.num_rows, port_type="rw") + self.control_logic = self.control_logic_rw = control_logic(num_rows=self.num_rows, words_per_row=self.words_per_row, port_type="rw") self.add_mod(self.control_logic_rw) if OPTS.num_w_ports>0: - self.control_logic_w = control_logic(num_rows=self.num_rows, port_type="w") + self.control_logic_w = control_logic(num_rows=self.num_rows, words_per_row=self.words_per_row, port_type="w") self.add_mod(self.control_logic_w) if OPTS.num_r_ports>0: - self.control_logic_r = control_logic(num_rows=self.num_rows, port_type="r") + self.control_logic_r = control_logic(num_rows=self.num_rows, words_per_row=self.words_per_row, port_type="r") self.add_mod(self.control_logic_r) # Create the address and control flops (but not the clk) diff --git a/compiler/tests/14_replica_bitline_test.py b/compiler/tests/14_replica_bitline_test.py index 9853b581..08d9be5f 100755 --- a/compiler/tests/14_replica_bitline_test.py +++ b/compiler/tests/14_replica_bitline_test.py @@ -24,6 +24,26 @@ class replica_bitline_test(openram_test): debug.info(2, "Testing RBL with {0} FO4 stages, {1} rows".format(stages,rows)) a = replica_bitline.replica_bitline(stages,fanout,rows) self.local_check(a) + #debug.error("Exiting...", 1) + + stages=8 + rows=100 + debug.info(2, "Testing RBL with {0} FO4 stages, {1} rows".format(stages,rows)) + a = replica_bitline.replica_bitline(stages,fanout,rows) + self.local_check(a) + + #check replica bitline in handmade multi-port 1rw+1r cell + OPTS.bitcell = "bitcell_1rw_1r" + OPTS.replica_bitcell = "replica_bitcell_1rw_1r" + OPTS.num_rw_ports = 1 + OPTS.num_w_ports = 0 + OPTS.num_r_ports = 1 + stages=4 + fanout=4 + rows=13 + debug.info(2, "Testing RBL with {0} FO4 stages, {1} rows".format(stages,rows)) + a = replica_bitline.replica_bitline(stages,fanout,rows) + self.local_check(a) stages=8 rows=100 @@ -31,7 +51,7 @@ class replica_bitline_test(openram_test): a = replica_bitline.replica_bitline(stages,fanout,rows) self.local_check(a) - # check replica bitline in multi-port + # check replica bitline in pbitcell multi-port OPTS.bitcell = "pbitcell" OPTS.replica_bitcell = "replica_pbitcell" OPTS.num_rw_ports = 1 @@ -61,7 +81,7 @@ class replica_bitline_test(openram_test): debug.info(2, "Testing RBL with {0} FO4 stages, {1} rows".format(stages,rows)) a = replica_bitline.replica_bitline(stages,fanout,rows) self.local_check(a) - + stages=8 rows=100 debug.info(2, "Testing RBL with {0} FO4 stages, {1} rows".format(stages,rows)) diff --git a/compiler/tests/16_control_logic_test.py b/compiler/tests/16_control_logic_test.py index ef435c4c..818c2eaf 100755 --- a/compiler/tests/16_control_logic_test.py +++ b/compiler/tests/16_control_logic_test.py @@ -20,7 +20,7 @@ class control_logic_test(openram_test): # check control logic for single port debug.info(1, "Testing sample for control_logic") - a = control_logic.control_logic(num_rows=128) + a = control_logic.control_logic(num_rows=128, words_per_row=1) self.local_check(a) # check control logic for multi-port @@ -31,7 +31,7 @@ class control_logic_test(openram_test): OPTS.num_r_ports = 0 debug.info(1, "Testing sample for control_logic for multiport") - a = control_logic.control_logic(num_rows=128) + a = control_logic.control_logic(num_rows=128, words_per_row=1) self.local_check(a) # Check port specific control logic @@ -40,15 +40,15 @@ class control_logic_test(openram_test): OPTS.num_r_ports = 1 debug.info(1, "Testing sample for control_logic for multiport, only write control logic") - a = control_logic.control_logic(num_rows=128, port_type="rw") + a = control_logic.control_logic(num_rows=128, words_per_row=1, port_type="rw") self.local_check(a) debug.info(1, "Testing sample for control_logic for multiport, only write control logic") - a = control_logic.control_logic(num_rows=128, port_type="w") + a = control_logic.control_logic(num_rows=128, words_per_row=1, port_type="w") self.local_check(a) debug.info(1, "Testing sample for control_logic for multiport, only read control logic") - a = control_logic.control_logic(num_rows=128, port_type="r") + a = control_logic.control_logic(num_rows=128, words_per_row=1, port_type="r") self.local_check(a) globals.end_openram() diff --git a/compiler/tests/22_psram_1bank_2mux_func_test.py b/compiler/tests/22_psram_1bank_2mux_func_test.py index 1e1367ed..f2679c03 100755 --- a/compiler/tests/22_psram_1bank_2mux_func_test.py +++ b/compiler/tests/22_psram_1bank_2mux_func_test.py @@ -20,6 +20,9 @@ class psram_1bank_2mux_func_test(openram_test): OPTS.netlist_only = True OPTS.bitcell = "pbitcell" OPTS.replica_bitcell="replica_pbitcell" + OPTS.num_rw_ports = 1 + OPTS.num_r_ports = 1 + OPTS.num_w_ports = 1 # This is a hack to reload the characterizer __init__ with the spice version from importlib import reload diff --git a/compiler/tests/22_psram_1bank_4mux_func_test.py b/compiler/tests/22_psram_1bank_4mux_func_test.py index d62e2855..a8d6dab2 100755 --- a/compiler/tests/22_psram_1bank_4mux_func_test.py +++ b/compiler/tests/22_psram_1bank_4mux_func_test.py @@ -20,6 +20,9 @@ class psram_1bank_4mux_func_test(openram_test): OPTS.netlist_only = True OPTS.bitcell = "pbitcell" OPTS.replica_bitcell="replica_pbitcell" + OPTS.num_rw_ports = 1 + OPTS.num_r_ports = 1 + OPTS.num_w_ports = 1 # This is a hack to reload the characterizer __init__ with the spice version from importlib import reload diff --git a/compiler/tests/22_psram_1bank_8mux_func_test.py b/compiler/tests/22_psram_1bank_8mux_func_test.py index 02ea2f3b..1a0a1ec5 100755 --- a/compiler/tests/22_psram_1bank_8mux_func_test.py +++ b/compiler/tests/22_psram_1bank_8mux_func_test.py @@ -11,7 +11,7 @@ import globals from globals import OPTS import debug -@unittest.skip("SKIPPING 22_psram_1bank_8mux_func_test") +#@unittest.skip("SKIPPING 22_psram_1bank_8mux_func_test") class psram_1bank_8mux_func_test(openram_test): def runTest(self): @@ -20,6 +20,9 @@ class psram_1bank_8mux_func_test(openram_test): OPTS.netlist_only = True OPTS.bitcell = "pbitcell" OPTS.replica_bitcell="replica_pbitcell" + OPTS.num_rw_ports = 1 + OPTS.num_r_ports = 1 + OPTS.num_w_ports = 1 # This is a hack to reload the characterizer __init__ with the spice version from importlib import reload @@ -29,7 +32,7 @@ class psram_1bank_8mux_func_test(openram_test): from sram import sram from sram_config import sram_config c = sram_config(word_size=4, - num_words=512, + num_words=256, num_banks=1) c.words_per_row=8 debug.info(1, "Functional test for psram with {} bit words, {} words, {} words per row, {} banks".format(c.word_size, diff --git a/compiler/tests/22_psram_1bank_nomux_func_test.py b/compiler/tests/22_psram_1bank_nomux_func_test.py index ce852dff..7817b055 100755 --- a/compiler/tests/22_psram_1bank_nomux_func_test.py +++ b/compiler/tests/22_psram_1bank_nomux_func_test.py @@ -20,6 +20,9 @@ class psram_1bank_nomux_func_test(openram_test): OPTS.netlist_only = True OPTS.bitcell = "pbitcell" OPTS.replica_bitcell="replica_pbitcell" + OPTS.num_rw_ports = 1 + OPTS.num_r_ports = 1 + OPTS.num_w_ports = 1 # This is a hack to reload the characterizer __init__ with the spice version from importlib import reload diff --git a/compiler/tests/22_sram_1bank_4mux_func_test.py b/compiler/tests/22_sram_1bank_4mux_func_test.py index cf972843..0df3ff0e 100755 --- a/compiler/tests/22_sram_1bank_4mux_func_test.py +++ b/compiler/tests/22_sram_1bank_4mux_func_test.py @@ -11,7 +11,7 @@ import globals from globals import OPTS import debug -@unittest.skip("SKIPPING 22_sram_1bank_4mux_func_test") +#@unittest.skip("SKIPPING 22_sram_1bank_4mux_func_test") class sram_1bank_4mux_func_test(openram_test): def runTest(self): diff --git a/compiler/tests/22_sram_1bank_8mux_func_test.py b/compiler/tests/22_sram_1bank_8mux_func_test.py index 61c0efb7..16122a49 100755 --- a/compiler/tests/22_sram_1bank_8mux_func_test.py +++ b/compiler/tests/22_sram_1bank_8mux_func_test.py @@ -11,7 +11,7 @@ import globals from globals import OPTS import debug -@unittest.skip("SKIPPING 22_sram_1bank_8mux_func_test") +#@unittest.skip("SKIPPING 22_sram_1bank_8mux_func_test") class sram_1bank_8mux_func_test(openram_test): def runTest(self): @@ -30,7 +30,7 @@ class sram_1bank_8mux_func_test(openram_test): from sram import sram from sram_config import sram_config c = sram_config(word_size=4, - num_words=512, + num_words=256, num_banks=1) c.words_per_row=8 debug.info(1, "Functional test for sram with {} bit words, {} words, {} words per row, {} banks".format(c.word_size, @@ -38,6 +38,7 @@ class sram_1bank_8mux_func_test(openram_test): c.words_per_row, c.num_banks)) s = sram(c, name="sram") + tempspice = OPTS.openram_temp + "temp.sp" tempspice = OPTS.openram_temp + "temp.sp" s.sp_write(tempspice) diff --git a/compiler/tests/22_sram_1bank_nomux_func_test.py b/compiler/tests/22_sram_1bank_nomux_func_test.py index 43d640ab..e6a5bcda 100755 --- a/compiler/tests/22_sram_1bank_nomux_func_test.py +++ b/compiler/tests/22_sram_1bank_nomux_func_test.py @@ -39,7 +39,7 @@ class sram_1bank_nomux_func_test(openram_test): s.sp_write(tempspice) corner = (OPTS.process_corners[0], OPTS.supply_voltages[0], OPTS.temperatures[0]) - + f = functional(s.s, tempspice, corner) f.num_cycles = 10 (fail, error) = f.run() diff --git a/compiler/tests/22_sram_1rw_1r_1bank_nomux_func_test.py b/compiler/tests/22_sram_1rw_1r_1bank_nomux_func_test.py new file mode 100755 index 00000000..aa80656d --- /dev/null +++ b/compiler/tests/22_sram_1rw_1r_1bank_nomux_func_test.py @@ -0,0 +1,60 @@ +#!/usr/bin/env python3 +""" +Run a functioal test on 1 bank SRAM +""" + +import unittest +from testutils import header,openram_test +import sys,os +sys.path.append(os.path.join(sys.path[0],"..")) +import globals +from globals import OPTS +import debug + +#@unittest.skip("SKIPPING 22_sram_1rw_1r_1bank_nomux_func_test") +class psram_1bank_nomux_func_test(openram_test): + + def runTest(self): + globals.init_openram("config_20_{0}".format(OPTS.tech_name)) + OPTS.analytical_delay = False + OPTS.netlist_only = True + OPTS.bitcell = "bitcell_1rw_1r" + OPTS.replica_bitcell = "replica_bitcell_1rw_1r" + OPTS.num_rw_ports = 1 + OPTS.num_w_ports = 0 + OPTS.num_r_ports = 1 + + # This is a hack to reload the characterizer __init__ with the spice version + from importlib import reload + import characterizer + reload(characterizer) + from characterizer import functional + from sram import sram + from sram_config import sram_config + c = sram_config(word_size=4, + num_words=32, + num_banks=1) + c.words_per_row=1 + debug.info(1, "Functional test for sram 1rw,1r with {} bit words, {} words, {} words per row, {} banks".format(c.word_size, + c.num_words, + c.words_per_row, + c.num_banks)) + s = sram(c, name="sram") + tempspice = OPTS.openram_temp + "temp.sp" + s.sp_write(tempspice) + + corner = (OPTS.process_corners[0], OPTS.supply_voltages[0], OPTS.temperatures[0]) + + f = functional(s.s, tempspice, corner) + f.num_cycles = 10 + (fail, error) = f.run() + self.assertTrue(fail,error) + + globals.end_openram() + +# instantiate a copy of the class to actually run the test +if __name__ == "__main__": + (OPTS, args) = globals.parse_args() + del sys.argv[1:] + header(__file__, OPTS.tech_name) + unittest.main() diff --git a/technology/freepdk45/gds_lib/replica_cell_1rw_1r.gds b/technology/freepdk45/gds_lib/replica_cell_1rw_1r.gds new file mode 100644 index 00000000..8bc45cbb Binary files /dev/null and b/technology/freepdk45/gds_lib/replica_cell_1rw_1r.gds differ diff --git a/technology/freepdk45/gds_lib/replica_cell_6t.gds b/technology/freepdk45/gds_lib/replica_cell_6t.gds index 2881a883..38c69cf9 100644 Binary files a/technology/freepdk45/gds_lib/replica_cell_6t.gds and b/technology/freepdk45/gds_lib/replica_cell_6t.gds differ diff --git a/technology/freepdk45/sp_lib/cell_6t.sp b/technology/freepdk45/sp_lib/cell_6t.sp index cb9cbc3c..e1e4936d 100644 --- a/technology/freepdk45/sp_lib/cell_6t.sp +++ b/technology/freepdk45/sp_lib/cell_6t.sp @@ -1,10 +1,15 @@ .SUBCKT cell_6t bl br wl vdd gnd +* Inverter 1 +MM0 Qbar Q gnd gnd NMOS_VTG W=205.00n L=50n +MM4 Qbar Q vdd vdd PMOS_VTG W=90n L=50n + +* Inverer 2 +MM1 Q Qbar gnd gnd NMOS_VTG W=205.00n L=50n +MM5 Q Qbar vdd vdd PMOS_VTG W=90n L=50n + +* Access transistors MM3 bl wl Q gnd NMOS_VTG W=135.00n L=50n -MM2 br wl Qb gnd NMOS_VTG W=135.00n L=50n -MM1 Q Qb gnd gnd NMOS_VTG W=205.00n L=50n -MM0 Qb Q gnd gnd NMOS_VTG W=205.00n L=50n -MM5 Q Qb vdd vdd PMOS_VTG W=90n L=50n -MM4 Qb Q vdd vdd PMOS_VTG W=90n L=50n +MM2 br wl Qbar gnd NMOS_VTG W=135.00n L=50n .ENDS cell_6t diff --git a/technology/freepdk45/sp_lib/replica_cell_1rw_1r.sp b/technology/freepdk45/sp_lib/replica_cell_1rw_1r.sp new file mode 100644 index 00000000..72a014ec --- /dev/null +++ b/technology/freepdk45/sp_lib/replica_cell_1rw_1r.sp @@ -0,0 +1,14 @@ + +.SUBCKT replica_cell_1rw_1r bl0 br0 bl1 br1 wl0 wl1 vdd gnd +MM9 RA_to_R_right wl1 br1 gnd NMOS_VTG W=180.0n L=50n m=1 +MM8 RA_to_R_right Q gnd gnd NMOS_VTG W=180.0n L=50n m=1 +MM7 RA_to_R_left vdd gnd gnd NMOS_VTG W=180.0n L=50n m=1 +MM6 RA_to_R_left wl1 bl1 gnd NMOS_VTG W=180.0n L=50n m=1 +MM5 Q wl0 bl0 gnd NMOS_VTG W=135.00n L=50n m=1 +MM4 vdd wl0 br0 gnd NMOS_VTG W=135.00n L=50n m=1 +MM1 Q vdd gnd gnd NMOS_VTG W=270.0n L=50n m=1 +MM0 vdd Q gnd gnd NMOS_VTG W=270.0n L=50n m=1 +MM3 Q vdd vdd vdd PMOS_VTG W=90n L=50n m=1 +MM2 vdd Q vdd vdd PMOS_VTG W=90n L=50n m=1 +.ENDS + diff --git a/technology/freepdk45/sp_lib/replica_cell_6t.sp b/technology/freepdk45/sp_lib/replica_cell_6t.sp index 3a7c40dd..dd29028a 100644 --- a/technology/freepdk45/sp_lib/replica_cell_6t.sp +++ b/technology/freepdk45/sp_lib/replica_cell_6t.sp @@ -1,10 +1,15 @@ .SUBCKT replica_cell_6t bl br wl vdd gnd -MM3 bl wl gnd gnd NMOS_VTG W=135.00n L=50n -MM2 br wl net4 gnd NMOS_VTG W=135.00n L=50n -MM1 gnd net4 gnd gnd NMOS_VTG W=205.00n L=50n -MM0 net4 gnd gnd gnd NMOS_VTG W=205.00n L=50n -MM5 gnd net4 vdd vdd PMOS_VTG W=90n L=50n -MM4 net4 gnd vdd vdd PMOS_VTG W=90n L=50n -.ENDS replica_cell_6t +* Inverter 1 +MM0 vdd Q gnd gnd NMOS_VTG W=205.00n L=50n +MM4 vdd Q vdd vdd PMOS_VTG W=90n L=50n + +* Inverer 2 +MM1 Q vdd gnd gnd NMOS_VTG W=205.00n L=50n +MM5 Q vdd vdd vdd PMOS_VTG W=90n L=50n + +* Access transistors +MM3 bl wl Q gnd NMOS_VTG W=135.00n L=50n +MM2 br wl vdd gnd NMOS_VTG W=135.00n L=50n +.ENDS cell_6t diff --git a/technology/scn4m_subm/gds_lib/cell_1rw_1r.gds b/technology/scn4m_subm/gds_lib/cell_1rw_1r.gds index 0b13d628..4254ba26 100644 Binary files a/technology/scn4m_subm/gds_lib/cell_1rw_1r.gds and b/technology/scn4m_subm/gds_lib/cell_1rw_1r.gds differ diff --git a/technology/scn4m_subm/gds_lib/replica_cell_1rw_1r.gds b/technology/scn4m_subm/gds_lib/replica_cell_1rw_1r.gds new file mode 100644 index 00000000..836708c3 Binary files /dev/null and b/technology/scn4m_subm/gds_lib/replica_cell_1rw_1r.gds differ diff --git a/technology/scn4m_subm/gds_lib/replica_cell_6t.gds b/technology/scn4m_subm/gds_lib/replica_cell_6t.gds index 6a6b32ad..f16f7b13 100644 Binary files a/technology/scn4m_subm/gds_lib/replica_cell_6t.gds and b/technology/scn4m_subm/gds_lib/replica_cell_6t.gds differ diff --git a/technology/scn4m_subm/mag_lib/cell_1rw_1r.mag b/technology/scn4m_subm/mag_lib/cell_1rw_1r.mag index e6420e89..85323b17 100644 --- a/technology/scn4m_subm/mag_lib/cell_1rw_1r.mag +++ b/technology/scn4m_subm/mag_lib/cell_1rw_1r.mag @@ -1,6 +1,6 @@ magic tech scmos -timestamp 1540504134 +timestamp 1541193956 << nwell >> rect 0 50 54 79 << pwell >> @@ -139,10 +139,10 @@ rect 0 0 54 74 << labels >> rlabel metal1 27 4 27 4 1 wl1 rlabel psubstratepcontact 27 11 27 11 1 gnd -rlabel m2contact 27 74 27 74 5 vdd rlabel metal1 19 67 19 67 1 wl0 rlabel metal2 4 7 4 7 2 bl0 rlabel metal2 11 7 11 7 1 bl1 rlabel metal2 43 7 43 7 1 br1 rlabel metal2 50 7 50 7 8 br0 +rlabel metal1 19 74 19 74 5 vdd << end >> diff --git a/technology/scn4m_subm/mag_lib/replica_cell_1rw_1r.mag b/technology/scn4m_subm/mag_lib/replica_cell_1rw_1r.mag new file mode 100644 index 00000000..38edce07 --- /dev/null +++ b/technology/scn4m_subm/mag_lib/replica_cell_1rw_1r.mag @@ -0,0 +1,149 @@ +magic +tech scmos +timestamp 1541194096 +<< nwell >> +rect 0 50 54 79 +<< pwell >> +rect 0 0 54 50 +<< ntransistor >> +rect 14 35 16 41 +rect 22 29 24 41 +rect 30 29 32 41 +rect 38 35 40 41 +rect 14 17 16 25 +rect 22 17 24 25 +rect 30 17 32 25 +rect 38 17 40 25 +<< ptransistor >> +rect 22 58 24 62 +rect 30 58 32 62 +<< ndiffusion >> +rect 9 39 14 41 +rect 13 35 14 39 +rect 16 35 17 41 +rect 21 33 22 41 +rect 17 29 22 33 +rect 24 29 25 41 +rect 29 29 30 41 +rect 32 33 33 41 +rect 37 35 38 41 +rect 40 39 45 41 +rect 40 35 41 39 +rect 32 29 37 33 +rect 9 23 14 25 +rect 13 19 14 23 +rect 9 17 14 19 +rect 16 17 22 25 +rect 24 17 25 25 +rect 29 17 30 25 +rect 32 17 38 25 +rect 40 23 45 25 +rect 40 19 41 23 +rect 40 17 45 19 +<< pdiffusion >> +rect 21 58 22 62 +rect 24 58 25 62 +rect 29 58 30 62 +rect 32 58 33 62 +<< ndcontact >> +rect 9 35 13 39 +rect 17 33 21 41 +rect 25 29 29 41 +rect 33 33 37 41 +rect 41 35 45 39 +rect 9 19 13 23 +rect 25 17 29 25 +rect 41 19 45 23 +<< pdcontact >> +rect 17 58 21 62 +rect 25 58 29 62 +rect 33 58 37 62 +<< psubstratepcontact >> +rect 25 9 29 13 +<< nsubstratencontact >> +rect 25 72 29 76 +<< polysilicon >> +rect 22 62 24 64 +rect 30 62 32 64 +rect 22 48 24 58 +rect 30 55 32 58 +rect 31 51 32 55 +rect 14 41 16 46 +rect 22 44 23 48 +rect 22 41 24 44 +rect 30 41 32 51 +rect 38 41 40 46 +rect 14 33 16 35 +rect 38 33 40 35 +rect 14 25 16 26 +rect 22 25 24 29 +rect 30 25 32 29 +rect 38 25 40 26 +rect 14 15 16 17 +rect 22 15 24 17 +rect 30 15 32 17 +rect 38 15 40 17 +<< polycontact >> +rect 27 51 31 55 +rect 10 42 14 46 +rect 23 44 27 48 +rect 40 42 44 46 +rect 12 26 16 30 +rect 38 26 42 30 +<< metal1 >> +rect 0 72 25 76 +rect 29 72 54 76 +rect 0 65 54 69 +rect 10 46 14 65 +rect 29 58 33 62 +rect 17 55 20 58 +rect 17 51 27 55 +rect 17 41 20 51 +rect 34 48 37 58 +rect 27 44 37 48 +rect 34 41 37 44 +rect 40 46 44 65 +rect 6 35 9 39 +rect 45 35 48 39 +rect 25 25 29 29 +rect 25 13 29 17 +rect 0 9 25 13 +rect 29 9 54 13 +rect 0 2 16 6 +rect 20 2 34 6 +rect 38 2 54 6 +<< m2contact >> +rect 25 72 29 76 +rect 25 58 29 62 +rect 2 35 6 39 +rect 16 26 20 30 +rect 48 35 52 39 +rect 34 26 38 30 +rect 9 19 13 23 +rect 41 19 45 23 +rect 16 2 20 6 +rect 34 2 38 6 +<< metal2 >> +rect 2 39 6 76 +rect 2 0 6 35 +rect 9 23 13 76 +rect 25 62 29 72 +rect 9 0 13 19 +rect 16 6 20 26 +rect 34 6 38 26 +rect 41 23 45 76 +rect 41 0 45 19 +rect 48 39 52 76 +rect 48 0 52 35 +<< bb >> +rect 0 0 54 74 +<< labels >> +rlabel metal1 27 4 27 4 1 wl1 +rlabel psubstratepcontact 27 11 27 11 1 gnd +rlabel metal1 19 67 19 67 1 wl0 +rlabel metal2 4 7 4 7 2 bl0 +rlabel metal2 11 7 11 7 1 bl1 +rlabel metal2 43 7 43 7 1 br1 +rlabel metal2 50 7 50 7 8 br0 +rlabel metal1 19 74 19 74 5 vdd +<< end >> diff --git a/technology/scn4m_subm/mag_lib/replica_cell_6t.mag b/technology/scn4m_subm/mag_lib/replica_cell_6t.mag index d0dc472f..c28cb2c6 100644 --- a/technology/scn4m_subm/mag_lib/replica_cell_6t.mag +++ b/technology/scn4m_subm/mag_lib/replica_cell_6t.mag @@ -1,6 +1,6 @@ magic tech scmos -timestamp 1536091380 +timestamp 1541443051 << nwell >> rect -8 29 42 51 << pwell >> @@ -76,15 +76,15 @@ rect 17 6 21 10 rect -2 44 15 48 rect 19 44 32 48 rect -2 40 2 44 +rect 22 40 26 44 rect 32 40 36 44 rect 11 36 12 40 rect 26 36 27 40 rect -2 26 2 29 -rect 11 22 15 36 +rect -2 16 2 22 +rect 11 18 15 36 rect 23 24 27 36 -rect -2 18 15 22 rect 25 20 27 24 -rect -2 16 2 18 rect 14 14 15 18 rect 23 18 27 20 rect 32 26 36 29 diff --git a/technology/scn4m_subm/sp_lib/cell_6t.sp b/technology/scn4m_subm/sp_lib/cell_6t.sp index 846cc371..bb430893 100644 --- a/technology/scn4m_subm/sp_lib/cell_6t.sp +++ b/technology/scn4m_subm/sp_lib/cell_6t.sp @@ -3,11 +3,16 @@ .SUBCKT cell_6t bl br wl vdd gnd * SPICE3 file created from cell_6t.ext - technology: scmos -M1000 a_36_40# a_28_32# vdd vdd p w=0.6u l=0.8u -M1001 vdd a_36_40# a_28_32# vdd p w=0.6u l=0.8u -M1002 a_36_40# a_28_32# gnd gnd n w=1.6u l=0.4u -M1003 gnd a_36_40# a_28_32# gnd n w=1.6u l=0.4u -M1004 a_36_40# wl bl gnd n w=0.8u l=0.4u -M1005 a_28_32# wl br gnd n w=0.8u l=0.4u +* Inverter 1 +M1000 Q Qbar vdd vdd p w=0.6u l=0.8u +M1002 Q Qbar gnd gnd n w=1.6u l=0.4u + +* Inverter 2 +M1001 vdd Q Qbar vdd p w=0.6u l=0.8u +M1003 gnd Q Qbar gnd n w=1.6u l=0.4u + +* Access transistors +M1004 Q wl bl gnd n w=0.8u l=0.4u +M1005 Qbar wl br gnd n w=0.8u l=0.4u .ENDS diff --git a/technology/scn4m_subm/sp_lib/replica_cell_1rw_1r.sp b/technology/scn4m_subm/sp_lib/replica_cell_1rw_1r.sp new file mode 100644 index 00000000..0a235af8 --- /dev/null +++ b/technology/scn4m_subm/sp_lib/replica_cell_1rw_1r.sp @@ -0,0 +1,14 @@ + +.SUBCKT replica_cell_1rw_1r bl0 br0 bl1 br1 wl0 wl1 vdd gnd +MM9 RA_to_R_right wl1 br1 gnd n w=1.6u l=0.4u +MM8 RA_to_R_right Q gnd gnd n w=1.6u l=0.4u +MM7 RA_to_R_left vdd gnd gnd n w=1.6u l=0.4u +MM6 RA_to_R_left wl1 bl1 gnd n w=1.6u l=0.4u +MM5 Q wl0 bl0 gnd n w=1.2u l=0.4u +MM4 vdd wl0 br0 gnd n w=1.2u l=0.4u +MM1 Q vdd gnd gnd n w=2.4u l=0.4u +MM0 vdd Q gnd gnd n w=2.4u l=0.4u +MM3 Q vdd vdd vdd p w=0.8u l=0.4u +MM2 vdd Q vdd vdd p w=0.8u l=0.4u +.ENDS + diff --git a/technology/scn4m_subm/sp_lib/replica_cell_6t.sp b/technology/scn4m_subm/sp_lib/replica_cell_6t.sp index d26d600f..a9d41398 100644 --- a/technology/scn4m_subm/sp_lib/replica_cell_6t.sp +++ b/technology/scn4m_subm/sp_lib/replica_cell_6t.sp @@ -1,14 +1,18 @@ *********************** "cell_6t" ****************************** .SUBCKT replica_cell_6t bl br wl vdd gnd -* SPICE3 file created from replica_cell_6t.ext - technology: scmos +* SPICE3 file created from cell_6t.ext - technology: scmos -M1000 gnd a_28_32# vdd vdd p w=0.6u l=0.8u -M1001 vdd gnd a_28_32# vdd p w=0.6u l=0.8u -** SOURCE/DRAIN TIED -M1002 gnd a_28_32# gnd gnd n w=1.6u l=0.4u -M1003 gnd gnd a_28_32# gnd n w=1.6u l=0.4u -M1004 gnd wl bl gnd n w=0.8u l=0.4u -M1005 a_28_32# wl br gnd n w=0.8u l=0.4u +* Inverter 1 +M1000 Q vdd vdd vdd p w=0.6u l=0.8u +M1002 Q vdd gnd gnd n w=1.6u l=0.4u + +* Inverter 2 +M1001 vdd Q vdd vdd p w=0.6u l=0.8u +M1003 gnd Q vdd gnd n w=1.6u l=0.4u + +* Access transistors +M1004 Q wl bl gnd n w=0.8u l=0.4u +M1005 vdd wl br gnd n w=0.8u l=0.4u .ENDS diff --git a/technology/scn4m_subm/tech/SCN4M_SUBM.20.tech b/technology/scn4m_subm/tech/SCN4M_SUBM.20.tech index bb2c2490..f39aa84f 100644 --- a/technology/scn4m_subm/tech/SCN4M_SUBM.20.tech +++ b/technology/scn4m_subm/tech/SCN4M_SUBM.20.tech @@ -1,5 +1,5 @@ tech - format 29 + format 31 scmos end @@ -301,11 +301,6 @@ style lambda=0.20(p) scalefactor 20 10 options calma-permissive-labels - # This is a custom section to add bounding boxes in OpenRAM - layer BB bb - labels bb - calma 63 0 - layer CWN nwell,rnw,nwr,nwsd,nwsc bloat-or pdiff,apres,rpd,pdc/a,pfet * 120 bloat-or nsd,nsc/a * 60 @@ -1769,11 +1764,6 @@ cifinput style lambda=0.20(p) scalefactor 20 - # This is a custom section to add bounding boxes in OpenRAM - layer bb BB - labels BB - calma 63 0 - layer nwell CWN and-not CWNR and-not CTA @@ -6701,7 +6691,7 @@ drc edge4way nfet,pfet,fet space/active,ndiff,anres,rnd,ndc/a,pdiff,apres,rpd,pdc/a 3 ndiff,anres,rnd,ndc/a,pdiff,apres,rpd,pdc/a,nfet,pfet,fet 0 0 \ "N-Diffusion,P-Diffusion overhang of Transistor < 3 (Mosis #3.4)" active - edge4way poly,fp,rp,pc/a ~(poly,fp,pres,rp,pc/a,nfet,pfet,fet,prp)/active 1 space space 1 \ + edge4way poly,fp,rp,pc/a ~(poly,fp,pres,rp,pc/a,nfet,pfet,fet,prp)/active 1 space/a space/a 1 \ "Poly spacing to Diffusion < 1 (Mosis #3.5)" edge4way nfet ~(nfet)/active 2 ~(pselect)/select ~(nfet)/active 2 \ @@ -7212,13 +7202,15 @@ extract planeorder via3 14 planeorder fill 15 + substrate *psd,space/w,pwell well + resist (ndiff,anres,rnd,ndc,nsd,nwsd,nsc,nwsc)/active 3700 resist (pdiff,apres,rpd,pdc,psd,psc)/active 2800 resist (nwell)/well 1018000 - resist (rnw,nwr)/active 1018000 + resist (rnw,nwr)/active 1018000 0.5 resist (pwell)/well 1 resist (poly,fp,rp,pc,pc,nfet,pfet,fet)/active 6000 - resist (pres)/active 6000 + resist (pres)/active 6000 0.5 resist (m1,fm1,rm1,ndc,nsc,nwsc,pdc,psc,pc,m2c,m2c)/metal1 80 resist (m2,fm2,rm2,m2c,m3c,m3c)/metal2 70 resist (m3,fm3,rm3,m3c,m4c,m4c)/metal3 80 @@ -7416,33 +7408,30 @@ extract #metali -#fets +#devices - fet pfet pdiff,pdc 2 pfet Vdd! nwell 52 181 - fet pfet pdiff,pdc 1 pfet Vdd! nwell 52 181 - - fet nfet ndiff,ndc 2 nfet Gnd! pwell 55 182 - fet nfet ndiff,ndc 1 nfet Gnd! pwell 55 182 + device mosfet pfet pfet pdiff,pdc nwell ERROR 52 181 + device mosfet nfet nfet ndiff,ndc pwell,space/w ERROR 55 182 fetresis pfet linear 12182 fetresis pfet saturation 12182 fetresis nfet linear 3961 fetresis nfet saturation 3961 - fet rnwell nsd,nsc 2 nwellResistor Gnd! nwell,pwell 0 0 - fet rpoly poly,pc 2 polyResistor Gnd! nwell,pwell 0 0 - fet nwr nwsd 2 nwellFig1bResistor Gnd! nwell,pwell 0 0 - fet rndiff ndiff,ndc 2 ndiffResistor Gnd! nwell,pwell 0 0 - fet rpdiff pdiff,pdc 2 pdiffResistor Gnd! nwell,pwell 0 0 + device resistor nwellResistor rnwell *nsd + device resistor polyResistor rpoly *poly + device resistor nwellFig1bResistor nwr nwsd + device resistor ndiffResistor rndiff *ndiff + device resistor pdiffResistor rpdiff *pdiff - fet rmetal1 metal1 2 metal1Resistor Gnd! nwell,pwell 0 0 - fet rmetal2 metal2 2 metal2Resistor Gnd! nwell,pwell 0 0 - fet rmetal3 metal3 2 metal3Resistor Gnd! nwell,pwell 0 0 - fet rmetal4 metal4 2 metal4Resistor Gnd! nwell,pwell 0 0 + device resistor metal1Resistor rmetal1 *metal1 + device resistor metal2Resistor rmetal2 *metal2 + device resistor metal3Resistor rmetal3 *metal3 + device resistor metal4Resistor rmetal4 *metal4 - fet pres poly,pc 2 presResistor Gnd! nwell,pwell 0 0 - fet anres ndiff,ndc 2 anresResistor Gnd! nwell,pwell 0 0 - fet apres pdiff,pdc 2 apresResistor Gnd! nwell,pwell 0 0 + device resistor presResistor pres *poly + device resistor anresResistor anres *ndiff + device resistor apresResistor apres *pdiff end diff --git a/technology/scn4m_subm/tech/tech.py b/technology/scn4m_subm/tech/tech.py index 0e81953a..25afd844 100755 --- a/technology/scn4m_subm/tech/tech.py +++ b/technology/scn4m_subm/tech/tech.py @@ -240,7 +240,7 @@ spice["fet_models"] = { "TT" : [SPICE_MODEL_DIR+"/nom/pmos.sp",SPICE_MODEL_DIR+" #spice stimulus related variables -spice["feasible_period"] = 5 # estimated feasible period in ns +spice["feasible_period"] = 5 # estimated feasible period in ns spice["supply_voltages"] = [4.5, 5.0, 5.5] # Supply voltage corners in [Volts] spice["nom_supply_voltage"] = 5.0 # Nominal supply voltage in [Volts] spice["rise_time"] = 0.05 # rise time in [Nano-seconds]