noir-compute

Crates.ionoir-compute
lib.rsnoir-compute
version0.2.0
sourcesrc
created_at2023-12-15 11:03:06.458876
updated_at2024-03-14 14:05:20.688203
descriptionNetwork of Operators In Rust
homepagehttps://github.com/deib-polimi/noir
repositoryhttps://github.com/deib-polimi/noir
max_upload_size
id1070866
size1,043,023
Luca (imDema)

documentation

README

Noir

Preprint

Network of Operators In Rust

API Docs

Noir is a distributed data processing platform based on the dataflow paradigm that provides an ergonomic programming interface, similar to that of Apache Flink, but has much better performance characteristics.

Noir converts each job into a dataflow graph of operators and groups them in blocks. Blocks contain a sequence of operors which process the data sequentially without repartitioning it. They are the deployment unit used by the system and can be distributed and executed on multiple systems.

The common layout of a Noir program starts with the creation of a StreamContext, then one or more Sources are initialised creating a Stream. The graph of operators is composed using the methods of the Stream object, which follow a similar approach to Rust's Iterator trait allowing ergonomically define a processing workflow through method chaining.

Examples

Wordcount

use noir_compute::prelude::*;

fn main() {
    // Convenience method to parse deployment config from CLI arguments
    let (config, args) = RuntimeConfig::from_args();
    config.spawn_remote_workers();
    let env = StreamContext::new(config);

    let result = env
        // Open and read file line by line in parallel
        .stream_file(&args[0])
        // Split into words
        .flat_map(|line| tokenize(&line))
        // Partition
        .group_by(|word| word.clone())
        // Count occurrences
        .fold(0, |count, _word| *count += 1)
        // Collect result
        .collect_vec();
        
    env.execute_blocking(); // Start execution (blocking)
    if let Some(result) = result.get() {
        // Print word counts
        result.into_iter().for_each(|(word, count)| println!("{word}: {count}"));
    }
}

fn tokenize(s: &str) -> Vec<String> {
    // Simple tokenisation strategy
    s.split_whitespace().map(str::to_lowercase).collect()
}

// Execute on 6 local hosts `cargo run -- -l 6 input.txt`

Wordcount associative (faster)

use noir_compute::prelude::*;

fn main() {
    // Convenience method to parse deployment config from CLI arguments
    let (config, args) = RuntimeConfig::from_args();
    let env = StreamContext::new(config);

    let result = env
        .stream_file(&args[0])
        // Adaptive batching(default) has predictable latency
        // Fixed size batching often leads to shorter execution times
        // If data is immediately available and latency is not critical
        .batch_mode(BatchMode::fixed(1024))
        .flat_map(move |line| tokenize(&line))
        .map(|word| (word, 1))
        // Associative operators split the operation in a local and a
        // global step for faster execution
        .group_by_reduce(|w| w.clone(), |(_w1, c1), (_w2, c2)| *c1 += c2)
        .unkey()
        .collect_vec();

    env.execute_blocking(); // Start execution (blocking)
    if let Some(result) = result.get() {
        // Print word counts
        result.into_iter().for_each(|(word, count)| println!("{word}: {count}"));
    }
}

fn tokenize(s: &str) -> Vec<String> {
    s.split_whitespace().map(str::to_lowercase).collect()
}

// Execute on multiple hosts `cargo run -- -r config.yaml input.txt`

Remote deployment

# config.yaml
hosts:
  - address: host1.lan
    base_port: 9500
    num_cores: 16
  - address: host2.lan
    base_port: 9500
    num_cores: 8
    ssh:
      username: noir-compute
      key_file: /home/user/.ssh/id_rsa

Refer to the examples directory for an extended set of working examples

Commit count: 511

cargo fmt