The Compute Budget Program
Requesting CU limits and setting CU price. This guide targets Agave 4.1.1 validators, Solana CLI 3.0.10, Anchor 0.32.1, and @solana/kit 7.0.0 clients.
Recipe
Quick-reference recipe card.
solana config set --url devnet
solana balanceimport { createSolanaRpc } from "@solana/kit";
const rpc = createSolanaRpc("https://api.devnet.solana.com");When to reach for this:
- Implementing or debugging the compute budget program in production paths
- Teaching the concept to engineers new to Solana
- Auditing whether your stack matches Agave 4.1 era behavior
Working Example
import { createSolanaRpc, address } from "@solana/kit";
const rpc = createSolanaRpc("https://api.devnet.solana.com");
const slot = await rpc.getSlot().send();
const sig = "PASTE_SIGNATURE_AFTER_YOUR_TX";
const tx = await rpc
.getTransaction(sig, { encoding: "json", maxSupportedTransactionVersion: 0 })
.send();
console.log({ slot, err: tx?.meta?.err, cu: tx?.meta?.computeUnitsConsumed });use anchor_lang::prelude::*;
#[program]
pub mod demo {
use super::*;
pub fn log_slot(_ctx: Context<LogSlot>) -> Result<()> {
let clock = Clock::get()?;
msg!("slot: {}", clock.slot);
Ok(())
}
}
#[derive(Accounts)]
pub struct LogSlot {}What this demonstrates:
- RPC access patterns with @solana/kit 7.0.0
- Reading execution metadata (errors, CU) from confirmed transactions
- On-chain sysvar access in Anchor 0.32.1 programs
Deep Dive
How It Works
- Requesting CU limits and setting CU price.
- Solana's account model requires explicit account lists per instruction
- Sealevel executes non-conflicting transactions in parallel
Agave 4.1.1 Notes
- Confirmation semantics follow TowerBFT voting with PoH ordering
- Alpenglow (Votor + Rotor) is rolling out for faster finality - see Consensus section
- Local development: Surfpool 0.12.0 and LiteSVM 0.6.x
Rust Notes
// Use checked math and explicit constraints in programs
require!(amount > 0, MyError::InvalidAmount);Gotchas
- Legacy web3.js v1 snippets - API differs from Kit. Fix: use @solana/kit 7.0.0.
- Wrong cluster - devnet vs mainnet mismatch. Fix: align CLI, RPC, wallet, explorer.
- Float SOL amounts - precision loss. Fix: bigint lamports end-to-end.
- Expired blockhash - dropped txs. Fix: re-fetch blockhash and re-sign.
- Insufficient CU - OOM or budget exceeded. Fix: optimize program + set Compute Budget.
- Missing owner checks - writable account exploits. Fix: Anchor constraints on every mut account.
Alternatives
| Alternative | Use When | Don't Use When |
|---|---|---|
| @solana/kit 7.0.0 | New TypeScript clients | Maintaining legacy code temporarily |
| Solana CLI 3.0.10 | Ops and quick probes | Production transaction signing at scale |
| Surfpool 0.12.0 | Anchor integration tests | Production deployment |
| LiteSVM 0.6.x | Fast unit tests | Full network behavior validation |
FAQs
How does this apply on Agave 4.1.1?
Agave 4.1.1 meters CU using limits you set via Compute Budget instructions—defaults may be too low for heavy programs.
What Solana CLI version should I use?
Use Solana CLI 3.0.10, which pairs with Agave 4.1.1. Install with agave-install init 4.1.1 (or your team's pin file), then verify with solana --version and agave-install --version.
Should I use @solana/kit or web3.js?
Use @solana/kit 7.0.0 for new TypeScript—typed RPC methods, smaller API surface, and examples on this page already use Kit. Keep web3.js only for legacy codebases; migrate RPC calls and transaction building incrementally.
What commitment level is recommended?
Simulate at confirmed, then poll getSignatureStatuses at confirmed for speed. Use finalized before treating token movements as settled.
How do I debug related failures?
Error Computational budget exceeded means raise SetComputeUnitLimit or optimize the program. Log computeUnitsConsumed from simulation.
Does this work on devnet?
Yes—point CLI and RPC to https://api.devnet.solana.com. Behavior matches mainnet; only account data and economics differ.
How do compute units affect this?
This page is entirely about CU—always prepend budget instructions before your program calls under load.
What is the Anchor 0.32.1 pattern?
Anchor 0.32.1 uses #[program], Context<T>, and #[derive(Accounts)] with explicit mut/signer constraints—run anchor build and anchor test on 0.32.1 via avm use 0.32.1.
How do I test with Surfpool 0.12.0?
Run anchor test with Surfpool 0.12.0 to simulate full transactions against a mainnet fork—especially priority-fee and v0/ALT paths.
Can LiteSVM 0.6.x cover this?
LiteSVM 0.6.x respects compute budget instructions—test CU headroom before mainnet.
What changed in the Agave era?
The validator client rebranded to Agave (4.1.1), CLI 3.0.10 aligns with it, and Alpenglow work is changing finality—pin versions and read release notes each upgrade.
Where do I find related RPC methods?
simulateTransaction reports unitsConsumed; getRecentPrioritizationFees helps pick SetComputeUnitPrice.
Related
- Browse other pages in the
transactions-instructions-feessection for complementary topics - Solana Basics - account and transaction orientation
Stack versions: This page was written for Agave 4.1.1, Solana CLI 3.0.10, Anchor 0.32.1, anchor-lang 0.32.1, Rust 1.91.1, @solana/kit 7.0.0, Surfpool 0.12.0, and LiteSVM 0.6.x.