224 lines
6.9 KiB
Rust
224 lines
6.9 KiB
Rust
use std::time::{Duration, Instant};
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use text_generation_client::{
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Batch, CachedBatch, ClientError, NextTokenChooserParameters, Request, ShardedClient,
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StoppingCriteriaParameters,
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};
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use tokenizers::{Tokenizer, TruncationDirection};
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use tokio::sync::{broadcast, mpsc};
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const LOREM_IPSUM: &str = "Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat. Duis aute irure dolor in reprehenderit in voluptate velit esse cillum dolore eu fugiat nulla pariatur. Excepteur sint occaecat cupidatat non proident, sunt in culpa qui officia deserunt mollit anim id est laborum.";
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#[derive(Debug, Clone)]
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pub(crate) struct Prefill {
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pub(crate) latency: Duration,
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pub(crate) throughput: f64,
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}
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#[derive(Debug, Clone)]
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pub(crate) struct Decode {
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pub(crate) latency: Duration,
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pub(crate) token_latency: Duration,
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pub(crate) throughput: f64,
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}
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#[derive(Debug)]
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pub(crate) enum Message {
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Warmup,
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Prefill(Prefill),
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Decode(Decode),
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EndRun,
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EndBatch,
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}
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/// Benchmarking task
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#[allow(clippy::too_many_arguments)]
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pub(crate) async fn generation_task(
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tokenizer: Tokenizer,
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batch_size: Vec<u32>,
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sequence_length: u32,
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decode_length: u32,
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n_runs: usize,
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warmups: usize,
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parameters: NextTokenChooserParameters,
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client: ShardedClient,
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run_sender: mpsc::Sender<Result<Message, ClientError>>,
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mut shutdown_receiver: broadcast::Receiver<()>,
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_shutdown_guard_sender: mpsc::Sender<()>,
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) {
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// End task if a message is received on shutdown_receiver
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// _shutdown_guard_sender will be dropped once the task is finished
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tokio::select! {
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res = generate_runs(tokenizer, batch_size, sequence_length, decode_length, n_runs, warmups, parameters, client, run_sender.clone()) => {
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if let Err(err) = res {
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run_sender.send(Err(err)).await.unwrap_or(());
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}
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},
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_ = shutdown_receiver.recv() => {}
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}
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}
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/// Benchmark prefill/decode
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#[allow(clippy::too_many_arguments)]
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async fn generate_runs(
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tokenizer: Tokenizer,
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batch_size: Vec<u32>,
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sequence_length: u32,
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decode_length: u32,
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n_runs: usize,
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warmups: usize,
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parameters: NextTokenChooserParameters,
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mut client: ShardedClient,
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run_sender: mpsc::Sender<Result<Message, ClientError>>,
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) -> Result<(), ClientError> {
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// Create a dummy sequence
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let sequence = create_sequence(sequence_length, tokenizer);
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for b in batch_size {
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// Warmups on batch size
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for _ in 0..warmups {
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let (_, decode_batch) = prefill(
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sequence.clone(),
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sequence_length,
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b,
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decode_length,
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parameters.clone(),
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&mut client,
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)
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.await?;
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let _ = decode(decode_batch, &mut client).await?;
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// Send warmup message
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run_sender.send(Ok(Message::Warmup)).await.unwrap_or(());
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}
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for _ in 0..n_runs {
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let (prefill, decode_batch) = prefill(
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sequence.clone(),
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sequence_length,
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b,
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decode_length,
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parameters.clone(),
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&mut client,
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)
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.await?;
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// Send prefill message
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run_sender
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.send(Ok(Message::Prefill(prefill)))
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.await
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.unwrap_or(());
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let decode = decode(decode_batch, &mut client).await?;
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// Send decode message
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run_sender
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.send(Ok(Message::Decode(decode)))
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.await
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.unwrap_or(());
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// Send run ended message
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run_sender.send(Ok(Message::EndRun)).await.unwrap_or(());
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}
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// Batch ended
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run_sender.send(Ok(Message::EndBatch)).await.unwrap_or(());
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}
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Ok(())
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}
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// Run a prefill step
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async fn prefill(
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sequence: String,
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sequence_length: u32,
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batch_size: u32,
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decode_length: u32,
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parameters: NextTokenChooserParameters,
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client: &mut ShardedClient,
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) -> Result<(Prefill, CachedBatch), ClientError> {
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// Create requests
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let requests = (0..batch_size)
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.map(|id| Request {
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id: id.into(),
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prefill_logprobs: false,
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inputs: sequence.clone(),
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truncate: sequence_length,
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parameters: Some(parameters.clone()),
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stopping_parameters: Some(StoppingCriteriaParameters {
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max_new_tokens: decode_length,
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stop_sequences: vec![],
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ignore_eos_token: true, // Will not stop even if a eos token is generated
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}),
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})
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.collect();
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let batch = Batch {
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id: 0,
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requests,
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size: batch_size,
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max_tokens: batch_size * (sequence_length + decode_length),
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};
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// Run prefill
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let start_time = Instant::now();
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let (_, decode_batch) = client.prefill(batch.clone()).await?;
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// Get latency
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let latency = start_time.elapsed();
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// Compute throughput from latency and batch size
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let throughput = batch_size as f64 / latency.as_secs_f64();
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// Decode batch cannot be empty
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let decode_batch = decode_batch.expect("decode_batch is None. This is a bug.");
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let step = Prefill {
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latency,
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throughput,
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};
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Ok((step, decode_batch))
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}
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/// Run a full decode
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async fn decode(batch: CachedBatch, client: &mut ShardedClient) -> Result<Decode, ClientError> {
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let mut decode_length = 0;
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let batch_size = batch.size;
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let start_time = Instant::now();
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// Full decode over decode length
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let mut next_batch = Some(batch);
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while let Some(batch) = next_batch {
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let result = client.decode(vec![batch]).await?;
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next_batch = result.1;
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decode_length += 1;
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}
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// Get latency
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let latency = start_time.elapsed();
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let token_latency = latency / decode_length;
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// Compute throughput from latency, batch size and decode length
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let throughput = (batch_size * decode_length) as f64 / latency.as_secs_f64();
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let step = Decode {
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latency,
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token_latency,
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throughput,
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};
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Ok(step)
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}
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/// Create a dummy sequence of the correct length
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fn create_sequence(sequence_length: u32, tokenizer: Tokenizer) -> String {
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let lorem_ipsum_length = tokenizer.encode(LOREM_IPSUM, true).unwrap().len();
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// Repeat lorem ipsum to cover sequence length
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let string_sequence =
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LOREM_IPSUM.repeat((0..sequence_length).step_by(lorem_ipsum_length).len());
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// Encode sequence
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let mut encoding = tokenizer.encode(string_sequence, true).unwrap();
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// Truncate to sequence_length
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encoding.truncate(sequence_length as usize, 0, TruncationDirection::Left);
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// Decode
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tokenizer
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.decode(Vec::from(encoding.get_ids()), false)
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.unwrap()
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}
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