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SP1 instructions added

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Oleksandr Pravdyvyi 2024-09-25 13:29:59 +03:00
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README.md
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# nescience-zkvm-testing
This repo reflects the tests conducted by Nescience Team on selected zkVMs.
All tests are Rust-based, so be sure to install it, for example according to [this](https://rustup.rs/).
# How to run tests
To run test, corresponding to zkVM of choise read
@ -8,3 +10,4 @@ To run test, corresponding to zkVM of choise read
- [zkWASM](./zkwasm/README.md)
- [zkMIPS](./zkmips/README.md)
- [Valida](./valida/README.md)
- [SP1](./sp1/README.md)

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sp1/README.md
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# Test run instructions
To run corresponding tests in `Valida` some preparations have to be done.
Firstly there is requirements
We assume, that one is in `valida` folder.
- [SP1](https://docs.succinct.xyz/getting-started/install.html)
Firstly, move into [scripts_and_tools](./scripts_and_tools/) directory.
Next, we assume, that one is in `sp1` folder.
Next, run
To prove execution we need to build one of the tests, let`s use [simple_arithmetic_test](./tests/simple_arithmetic_test/) as an example.
To generate a proof, run the following commands:
```sh
./valida_setup.sh
```
This will fetch all necessary components to build Rist code in `Valida`.
Next, to prove execution we need to build one of the tests, let`s use [simple_arithmetic_test](./tests/simple_arithmetic_test/) as an example.
Run
```sh
./build-rust.sh simple_arithmetic_test
```
If run is succsessfull then you will see `simple_arithmetic_test`, `simple_arithmetic_test.ll`, `simple_arithmetic_test.o` files in the scripts directory.
Next, we need prove execution, to do so run
```sh
./valida_prove.sh simple_arithmetic_test
```
If proof succsessfull, you will see `simple_arithmetic_test.proof` file in scripts derectory.
If needed, proof can be verified as follows
```sh
./valida_verify.sh simple_arithmetic_test
cd simple_arithmetic_test
cd script
cargo run --release -- --prove
```

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sp1/mem_alloc_vec_test/README.md
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# SP1 Project Template
This is a template for creating an end-to-end [SP1](https://github.com/succinctlabs/sp1) project
that can generate a proof of any RISC-V program.
## Requirements
- [Rust](https://rustup.rs/)
- [SP1](https://docs.succinct.xyz/getting-started/install.html)
## Running the Project
There are four main ways to run this project: build a program, execute a program, generate a core proof, and
generate an EVM-compatible proof.
### Build the Program
To build the program, run the following command:
```sh
cd program
cargo prove build
```
### Execute the Program
To run the program without generating a proof:
```sh
cd script
cargo run --release -- --execute
```
This will execute the program and display the output.
### Generate a Core Proof
To generate a core proof for your program:
```sh
cd script
cargo run --release -- --prove
```
### Generate an EVM-Compatible Proof
> [!WARNING]
> You will need at least 128GB RAM to generate a PLONK or Groth16 proof.
To generate a proof that is small enough to be verified on-chain and verifiable by the EVM:
```sh
cd script
cargo run --release --bin evm -- --system plonk
```
this will generate a PLONK proof. If you want to generate a Groth16 proof, run the following command:
```sh
cargo run --release --bin evm -- --system groth16
```
These commands will also generate fixtures that can be used to test the verification of SP1 zkVM proofs
inside Solidity.
### Retrieve the Verification Key
To retrieve your `programVKey` for your on-chain contract, run the following command:
```sh
cargo prove vkey --elf elf/riscv32im-succinct-zkvm-elf
```
## Using the Prover Network
We highly recommend using the Succinct prover network for any non-trivial programs or benchmarking purposes. For more information, see the [setup guide](https://docs.succinct.xyz/prover-network/setup.html).
To get started, copy the example environment file:
```sh
cp .env.example .env
```
Then, set the `SP1_PROVER` environment variable to `network` and set the `SP1_PRIVATE_KEY`
environment variable to your whitelisted private key.
For example, to generate an EVM-compatible proof using the prover network, run the following
command:
```sh
SP1_PROVER=network SP1_PRIVATE_KEY=... cargo run --release --bin evm
```

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sp1/mem_alloc_vec_test/program/src/main.rs
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//! A simple program that takes a number `n` as input, and writes the `n-1`th and `n`th fibonacci
//! number as an output.
// These two lines are necessary for the program to properly compile.
//
// Under the hood, we wrap your main function with some extra code so that it behaves properly

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sp1/simple_arithmetic_test/README.md
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# SP1 Project Template
This is a template for creating an end-to-end [SP1](https://github.com/succinctlabs/sp1) project
that can generate a proof of any RISC-V program.
## Requirements
- [Rust](https://rustup.rs/)
- [SP1](https://docs.succinct.xyz/getting-started/install.html)
## Running the Project
There are four main ways to run this project: build a program, execute a program, generate a core proof, and
generate an EVM-compatible proof.
### Build the Program
To build the program, run the following command:
```sh
cd program
cargo prove build
```
### Execute the Program
To run the program without generating a proof:
```sh
cd script
cargo run --release -- --execute
```
This will execute the program and display the output.
### Generate a Core Proof
To generate a core proof for your program:
```sh
cd script
cargo run --release -- --prove
```
### Generate an EVM-Compatible Proof
> [!WARNING]
> You will need at least 128GB RAM to generate a PLONK or Groth16 proof.
To generate a proof that is small enough to be verified on-chain and verifiable by the EVM:
```sh
cd script
cargo run --release --bin evm -- --system plonk
```
this will generate a PLONK proof. If you want to generate a Groth16 proof, run the following command:
```sh
cargo run --release --bin evm -- --system groth16
```
These commands will also generate fixtures that can be used to test the verification of SP1 zkVM proofs
inside Solidity.
### Retrieve the Verification Key
To retrieve your `programVKey` for your on-chain contract, run the following command:
```sh
cargo prove vkey --elf elf/riscv32im-succinct-zkvm-elf
```
## Using the Prover Network
We highly recommend using the Succinct prover network for any non-trivial programs or benchmarking purposes. For more information, see the [setup guide](https://docs.succinct.xyz/prover-network/setup.html).
To get started, copy the example environment file:
```sh
cp .env.example .env
```
Then, set the `SP1_PROVER` environment variable to `network` and set the `SP1_PRIVATE_KEY`
environment variable to your whitelisted private key.
For example, to generate an EVM-compatible proof using the prover network, run the following
command:
```sh
SP1_PROVER=network SP1_PRIVATE_KEY=... cargo run --release --bin evm
```

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sp1/simple_arithmetic_test/program/src/main.rs
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//! A simple program that takes a number `n` as input, and writes the `n-1`th and `n`th fibonacci
//! number as an output.
// These two lines are necessary for the program to properly compile.
//
// Under the hood, we wrap your main function with some extra code so that it behaves properly