commit | adb5a1210748feed3031eef03a9553f013647b12 | [log] [tgz] |
---|---|---|
author | Jeff DiCorpo <jeffdi@efabless.com> | Mon Feb 15 20:05:04 2021 -0800 |
committer | Jeff DiCorpo <jeffdi@efabless.com> | Mon Feb 15 20:05:04 2021 -0800 |
tree | 26e6224fa5be2cb4ffa52a272d8f6b8e1a62b525 | |
parent | b3feb62d11e266fbaf702324885f8cb9d06b6025 [diff] |
final gds & drc results
This is the Google/EFabless/Skywater Caravel submission of an Analog Spiking Neuron Circuit. The submission also includes a SONOS transistor array.
The circuit in the original paper is in 130nm technology and has a vdd of 300mV. Skywater pdk is hybrid 180nm/130nm node where the minimum transistor length is 150nm. As a result vdd needs to be higher in order to get the circuit to work properly. In simulation 700mV seems to work well.
node | pad | node | pad | node | pad |
---|---|---|---|---|---|
i_bias | mprj_io[13] | v_buff | mprj_io[22] | vdd | vdda1 |
vad | mprj_io[14] | u_buff | mprj_io[23] | vss | vssa1 |
vr | mprj_io[15] | a_buff | mprj_io[24] | vdd_aux | vdda2 |
vk | mprj_io[16] | axon_buff | mprj_io[25] | ||
vth | mprj_io[17] | sel | mprj_io[26] | ||
vw | mprj_io[18] | v_syn | mprj_io[27] | ||
vau | mprj_io[19] | u_syn | mprj_io[28] | ||
vsyn0 | mprj_io[20] | a_syn | mprj_io[29] | ||
vsyn1 | mprj_io[21] | axon_syn | mprj_io[30] | ||
i_in | mprj_io[31] |
Spiking pattern at v_buff for i_in = 10pA DC
A 2x2 array of nfet sonos cells with transistor sizing 420nmx150nm.
node | pad |
---|---|
WL0 | mprj_io[7] |
WL1 | mprj_io[8] |
BL0 | mprj_io[9] |
SL0 | mprj_io[10] |
BL1 | mprj_io[11] |
SL1 | mprj_io[12] |
The mega project area also contains a 10-bit Potentiometric Digital to Analog Converter built off of Ashutosh Sharma's design. The design uses a 3.3V rail voltage, and 1.8V digital input voltage. The DAC‘s inputs are controlled by the Caravel harness’ built in RISC-V core. Ashutosh Sharma's design used the OSU180 process, for the caravel submission it was ported to the Sky130 process.
The design uses a string of polysilicon resistors in series to create a string DAC. The resistors are connected to digital switches in order to achieve an exact voltage at the output. The device was built through hierarchical sub-circuits and sub-layouts starting off at 2-bit, then 3-bit and so forth, incrementally reaching 10-bit. With a full scale of 3.3 V and a 10 bit resolution.
Node | Pad |
---|---|
Analog_Out | analog_io[25] |
Digital_In[0] | io_in[0] |
Digital_In[1] | io_in[1] |
Digital_In[2] | io_in[2] |
Digital_In[3] | io_in[3] |
Digital_In[4] | io_in[4] |
Digital_In[5] | io_in[5] |
Digital_In[6] | io_in[6] |
Digital_In[7] | io_in[7] |
Digital_In[8] | io_in[8] |
Digital_In[9] | io_in[9] |
VDD | vdda1 |
Gnd | vssa1 |
String of resistors and switches that make up potentiometric DAC.
Simple block representing all inputs and outputs of DAC.
To setup and install the repo for development:
export PDK_ROOT=(where pdks will be installed) cd $PDK_ROOT git clone https://github.com/efabless/openlane.git -b mpw-one-a cd openlane export OPENLANE_ROOT=$(pwd) make
2. Clone and uncompress the repo:
git clone https://github.com/Bryce-Readyhough/caravel_UNCC_MPW_1.git make uncompress -j$nproc