Gas and ink in Stylus
Gas and ink are the pricing primitives that are used to determine the cost of handling specific opcodes and host I/Os on Stylus. For an overview of specific opcode and host I/O costs, see Opcode and host I/O pricing.
Stylus is currently tagged as a release-candidate
. The code has been audited, and testing in production environments is underway. Caution should be taken when used in production scenarios. This documentation is currently in public preview.
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Stylus gas costs
Stylus introduces new pricing models for WASM programs. Intended for high-compute applications, Stylus makes the following more affordable:
- Compute, which is generally 10-100x cheaper depending on the program. This is primarily due to the efficiency of the WASM runtime relative to the EVM, and the quality of the code produced by Rust, C, and C++ compilers. Another factor that matters is the quality of the code itself. For example, highly optimized and audited C libraries that implement a particular cryptographic operation are usually deployable without modification and perform exceptionally well. The fee reduction may be smaller for highly optimized Solidity that makes heavy use of native precompiles vs. an unoptimized Stylus equivalent that doesn't do the same.
- Memory, which is 100-500x cheaper due to Stylus's novel exponential pricing mechanism intended to address Vitalik's concerns with the EVM's per-call, quadratic memory pricing policy. For the first time ever, high-memory applications are possible on an EVM-equivalent chain.
- Storage, for which the Rust SDK promotes better access patterns and type choices. Note that while the underlying
SLOAD
andSSTORE
operations cost as they do in the EVM, the Rust SDK implements an optimal caching policy that minimizes their use. Exact savings depends on the program. - VM affordances, including common operations like
keccak
and reentrancy detection. No longer is it expensive to make safety the default.
There are, however, minor overheads to using Stylus that may matter to your application:
- The first time a WASM is deployed, it must be activated. This is generally a few million gas, though to avoid testnet DoS, we've set it to a fixed 14 million. Note that you do not have to activate future copies of the same program. For example, the same NFT template can be deployed many times without paying this cost more than once. We will soon make the fees paid depend on the program, so that the gas used is based on the complexity of the WASM instead of this very conservative, worst-case estimate.
- Calling a Stylus program costs 128-2048 gas. We're working with Wasmer to improve setup costs, but there will likely always be some amount of gas one pays to jump into WASM execution. This means that if a contract does next to nothing, it may be cheaper in Solidity. However if a contract starts doing interesting work, the dynamic fees will quickly make up for this fixed-cost overhead.
Though conservative bounds have been chosen for testnet, all of this is subject to change as pricing models mature and further optimizations are made. Since gas numbers will vary across updates, it may make more sense to clock the time it takes to perform an operation rather than going solely by the numbers reported in receipts.
Ink and gas
Because WASM opcodes are orders of magnitude faster than their EVM counterparts, almost every operation that Stylus does costs less than 1 gas
. “Fractional gas” isn’t an EVM concept, so the Stylus VM introduces a new unit of payment known as ink that’s orders of magnitude smaller.
1 gas = 10,000 ink
Intuition
To build intuition for why this is the case, consider the ADD
instruction.
In the EVM
- Pay for gas, requiring multiple look-ups of an in-memory table
- Consider tracing, even if disabled
- Pop two items of the simulated stack
- Add them together
- Push the result
In the Stylus VM
- Execute a single x86 or ARM
ADD
instruction
Note that unlike the EVM, which charges for gas before running each opcode, the Stylus VM strategically charges for many opcodes all at once. This cuts fees considerably, since the VM only rarely needs to execute gas charging logic. Additionally, gas charging happens inside the program, removing the need for an in-memory table.
The ink price
The ink price, which measures the amount of ink a single EVM gas buys, is configurable by the chain owner. By default, the exchange rate is 1:10000
, but this may be adjusted as the EVM and Stylus VM improve over time.
For example, if the Stylus VM becomes 2x faster, instead of cutting the nominal cost of each operation, the ink price may instead be halved, allowing 1 EVM gas to buy twice as much ink. This provides an elegant mechanism for smoothly repricing resources between the two VMs as each makes independent progress.
User experience
It is important to note that users never need to worry about this notion of ink. Receipts will always be measured in gas, with the exchange rate applied automatically under the hood as the VMs pass execution back and forth.
However, developers optimizing contracts may choose to measure performance in ink to pin down the exact cost of executing various routines. The ink_left
function exposes this value, and various methods throughout the Rust SDK optionally accept ink amounts too.
See also
- Opcode and host I/O pricing reference: Detailed costs per opcode and host I/O