# Best Practices for Large Circuits
This document summarizes the best practices for compiling and generating Groth16 proofs for large ZK circuits using the circom / snarkjs toolstack. These techniques are most applicable to circuits with at least 20M constraints.
For such large circuits, you need a machine with an Intel processor, lots of RAM and a large hard drive with swap enabled. For example, the [zkPairing](https://github.com/yi-sun/circom-pairing) project used an AWS r5.8xlarge instance with 32-core 3.1GHz, 256G RAM machine with 1T hard drive and 400G swap.
Our knowledge of the following best practices is almost entirely due to the generosity and guidance of [Jordi Baylina](https://github.com/jbaylina) from [Polygon-Hermez](https://github.com/hermeznetwork/).
## Compilation and proving
* **Compilation:** for circuits with >20M constraints, one should not compile to WebAssembly because witness generation will exceed the memory cap of WebAssembly. For this reason, one must compile with the C++ flag and remove the `wasm` flag.
* For witness debugging, run: `circom --O1 --c --sym` (turns off `.wasm` and `.r1cs`). We are not concerned with generating a proving key, so the `r1cs` file is unnecessary. `--O1` optimization only removes "equals" constraints but does not optimize out "linear" constraints.
* For production, run: `circom --O2 --c --sym --r1cs` (turns off `.wasm`). In practice, one may still need to use `--O1` because the further `--O2` optimization takes significantly longer on large circuits (for reasons that aren't totally clear).
* **Witness generation:** As mentioned above, witness generation must be done by compiling from C++ code.
* For C++, on Ubuntu one needs the following `apt` packages: `build-essential libgmp-dev libsodium-dev nasm nlohmann-json3-dev`
* Update Circom to avoid this [bug](https://github.com/iden3/circom/commit/522b777f98007bf197a9bfc4cc9cb3efccb440ea)
* To build the binary: `cd "$CIRCUIT_NAME"_cpp; make`
* To generate the witness: `./"$CIRCUIT_NAME" [input.json] [witness.wtns]`
* Extract `.json` from `.wtns` using `snarkjs wej [witness.wtns] [witness.json]` (uses `.sym` file)
* `wasm` witness generator will not work for circuits above a certain constraint size (~10-20M) due to memory limit
* **Note:** C++ witness generator will not work on computes with Apple Silicon (e.g., M1) chips due to assembly incompatibility.
* **Key generation:** (see [full commands below](#Build-scripts)) Groth16 requires a separate trusted ceremony for each circuit -- this is the [phase 2 trusted setup](https://github.com/iden3/snarkjs#15-setup). This step requires using the [Powers of Tau](https://github.com/iden3/snarkjs#7-prepare-phase-2) from the phase 1 trusted setup and performing elliptic curve operations which scale with the size of the circuit. Unfortunately this means that the amount of memory used also scales with the size of the circuit (number of constraints).
The speed of the phase 2 trusted setup is significantly slowed down due to automatic garbage collection performed by Node. To get around this, we use a [patched version of Node introduced by Polygon-Hermez](https://github.com/hermeznetwork/phase2ceremony_4/blob/main/VERIFY.md#adding-swap-and-tweeking-the-os-to-accept-high-amount-of-memory) to disable garbage collection. This significantly speeds up the trusted setup; as a trade-off, Node uses an incredible amount of memory so the machine **must** have swap set up.
* [Remove](https://stackoverflow.com/a/59923848) Node internal memory limit and also any system memory limits. (Commands [below](#Remove-system-memory-limit).)
* Add [swap](#setup-swap) and [patched version](#Install-patched-node) of Node without garbage collection.
* **Proof generation:** For faster proving time, use [rapidsnark](https://github.com/iden3/rapidsnark) for proving.
```
rapidsnark/build/prover [.zkey] [.wtns] proof.json public.json
```
### Witness generation debugging
In the circuit debugging stage, it is useful to note that you do not need to go through the full setup with key generation above to extract the outputs (if any) of the proof.
After generating the witness file `witness.wtns` and converting it to `json` using `snarkjs wej [witness.wtns] [witness.json]`, then indices `1-m` of `witness.json` (index `0` is always equal to `1`) will contain the `m` public outputs of the proof.
In fact, one can in theory extract *all* witnesses from intermediate steps of the proof from `witness.json` using the `.sym` file. We have built an experimental Python parser to do this [here](https://github.com/yi-sun/circom-pairing/blob/master/python/parse_wtns.py) (the parser currently may break due to compiler optimizations, run with `--O0` for safety).
## Setup from scratch
Here are the steps to set up a blank slate machine/instance according to the configuration described above.
Install rust, circom, C++ dependencies, nvm, and yarn.
```
curl --proto '=https' --tlsv1.2 https://sh.rustup.rs -sSf | sh
source $HOME/.cargo/env
git clone https://github.com/iden3/circom.git
cd circom
cargo build --release
cargo install --path circom
sudo apt install build-essential libgmp-dev libsodium-dev nasm nlohmann-json3-dev
curl -o- https://raw.githubusercontent.com/nvm-sh/nvm/v0.39.1/install.sh | bash
export NVM_DIR="$HOME/.nvm"
[ -s "$NVM_DIR/nvm.sh" ] && \. "$NVM_DIR/nvm.sh" # This loads nvm
[ -s "$NVM_DIR/bash_completion" ] && \. "$NVM_DIR/bash_completion" # This loads nvm bash_completion
nvm install --lts
npm install --global yarn
```
### Remove system memory limit
Run
```
sysctl -w vm.max_map_count=655300
```
and fix it to not be reset after a reboot by adding this line
```
vm.max_map_count=655300
```
in the file `/etc/sysctl.conf`.
### Setup swap
```
sudo fallocate -l 400G /swapfile
sudo chmod 600 /swapfile
sudo mkswap /swapfile
sudo swapon /swapfile
sudo sh -c 'echo "vm.max_map_count=10000000" >>/etc/sysctl.conf'
sudo sh -c 'echo 10000000 > /proc/sys/vm/max_map_count'
```
to make this persistent through reboots, add to `/etc/fstab`:
```
/swapfile swap swap defaults 0 0
```
### Install patched node
We use `$HOME_DIR` as our home directory throughout.
```
cd $HOME_DIR
```
```
curl -o- https://raw.githubusercontent.com/nvm-sh/nvm/v0.37.2/install.sh | bash
source ~/.bashrc
nvm install v14.8.0
node --version
git clone https://github.com/nodejs/node.git
cd node
git checkout 8beef5eeb82425b13d447b50beafb04ece7f91b1
patch -p1 <<EOL
index 0097683120..d35fd6e68d 100644
--- a/deps/v8/src/api/api.cc
+++ b/deps/v8/src/api/api.cc
@@ -7986,7 +7986,7 @@ void BigInt::ToWordsArray(int* sign_bit, int* word_count,
void Isolate::ReportExternalAllocationLimitReached() {
i::Heap* heap = reinterpret_cast<i::Isolate*>(this)->heap();
if (heap->gc_state() != i::Heap::NOT_IN_GC) return;
- heap->ReportExternalMemoryPressure();
+ // heap->ReportExternalMemoryPressure();
}
HeapProfiler* Isolate::GetHeapProfiler() {
diff --git a/deps/v8/src/objects/backing-store.cc b/deps/v8/src/objects/backing-store.cc
index bd9f39b7d3..c7d7e58ef3 100644
--- a/deps/v8/src/objects/backing-store.cc
+++ b/deps/v8/src/objects/backing-store.cc
@@ -34,7 +34,7 @@ constexpr bool kUseGuardRegions = false;
// address space limits needs to be smaller.
constexpr size_t kAddressSpaceLimit = 0x8000000000L; // 512 GiB
#elif V8_TARGET_ARCH_64_BIT
-constexpr size_t kAddressSpaceLimit = 0x10100000000L; // 1 TiB + 4 GiB
+constexpr size_t kAddressSpaceLimit = 0x40100000000L; // 4 TiB + 4 GiB
#else
constexpr size_t kAddressSpaceLimit = 0xC0000000; // 3 GiB
#endif
EOL
./configure
make -j16
```
The patched node executable is located at `NODE_PATH = $HOME_DIR/node/out/Release/node`.
### Install snarkjs from source
```
cd $HOME_DIR
git clone https://github.com/iden3/snarkjs.git
cd snarkjs
git checkout v0.3.59
npm install
```
The snarkjs executable is located at `SNARKJS_PATH = $HOME_DIR/snarkjs/cli.js`.
### Install rapidsnark from source
```
cd $HOME_DIR
git clone git@github.com:iden3/rapidsnark.git
cd rapidsnark
npm install
git submodule init
git submodule update
npx task createFieldSources
npx task buildProver
```
The rapidsnark executable is located at `RAPIDSNARK_PATH = $HOME_DIR/rapidsnark/build/prover`.
## Build scripts
One can use the following bash script to implement all the [proving](#Compilation-and-proving) steps described above. (For a full implementation, see [here](https://github.com/yi-sun/circom-pairing/blob/3c43adafa4d908c72f79651a62bd9481fe50fde9/scripts/signature/build_signature.sh).)
The Powers of Tau file is located at `$PHASE1`. Let `CIRCUIT_NAME` be the name of the circuit. We assume the circuit has already been compiled, with all relevant files in the current directory.
### Phase 2 trusted setup
Groth16 requires a separate trusted setup for each circuit. This generates a common reference string (CRS), which is stored in a `.zkey` file. The following commands should be run once per circuit.
To create the `.zkey` without phase 2 contributions:
```
echo "****GENERATING ZKEY 0****"
start=`date +%s`
$NODE_PATH --trace-gc --trace-gc-ignore-scavenger --max-old-space-size=2048000 --initial-old-space-size=2048000 --no-global-gc-scheduling --no-incremental-marking --max-semi-space-size=1024 --initial-heap-size=2048000 --expose-gc $SNARKJS_PATH zkey new "$CIRCUIT_NAME".r1cs "$PHASE1" "$CIRCUIT_NAME"_0.zkey -v
end=`date +%s`
echo "DONE ($((end-start))s)"
```
We should contribute to the phase 2 ceremony, which requires some randomn input. (For production, one should do multiple contributions with more rigor.)
```
echo "****CONTRIBUTE TO PHASE 2 CEREMONY****"
start=`date +%s`
$NODE_PATH $SNARKJS_PATH zkey contribute -verbose "$CIRCUIT_NAME"_0.zkey "$CIRCUIT_NAME".zkey -n="First phase2 contribution" -e="some random text for entropy"
end=`date +%s`
echo "DONE ($((end-start))s)"
```
Verify final zkey:
```
echo "****VERIFYING FINAL ZKEY****"
start=`date +%s`
$NODE_PATH --trace-gc --trace-gc-ignore-scavenger --max-old-space-size=2048000 --initial-old-space-size=2048000 --no-global-gc-scheduling --no-incremental-marking --max-semi-space-size=1024 --initial-heap-size=2048000 --expose-gc $SNARKJS_PATH zkey verify -verbose "$CIRCUIT_NAME".r1cs "$PHASE1" "$CIRCUIT_NAME".zkey
end=`date +%s`
echo "DONE ($((end-start))s)
```
The verifier does not need the full zkey to verify a Groth16 proof. They only need a shorter verification key. To export the verification key:
```
echo "****EXPORTING VKEY****"
start=`date +%s`
$NODE_PATH $SNARKJS_PATH zkey export verificationkey "$CIRCUIT_NAME".zkey [vkey.json] -v
end=`date +%s`
echo "DONE ($((end-start))s)"
```
### Witness and proof generation
The following commands should be run once for each input to generate witness and a proof for that input.
#### Done by prover:
Generate witness (C++):
```
cd "$CIRCUIT_NAME"_cpp
make
./"$CIRCUIT_NAME" [input.json] [witness.wtns]
```
Change witness to `.json`:
```
snarkjs wej [witness.wtns] [witness.json]
```
Generate proof:
```
echo "****GENERATING PROOF FOR SAMPLE INPUT****"
start=`date +%s`
$RAPIDSNARK_PATH "$CIRCUIT_NAME".zkey [witness.wtns] [proof.json] [public.json]
end=`date +%s`
echo "DONE ($((end-start))s)"
```
#### Done by verifier:
To verify the proof, run:
```
echo "****VERIFYING PROOF FOR SAMPLE INPUT****"
start=`date +%s`
$NODE_PATH $SNARKJS_PATH groth16 verify [vkey.json] [public.json] [proof.json] -v
end=`date +%s`
echo "DONE ($((end-start))s)"
```
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