Paper Detail

ForkKV: Scaling Multi-LoRA Agent Serving via Copy-on-Write Disaggregated KV Cache

Shao Wang, Rui Ren, Lin Gui

Browse

Workflow Queues

arxiv Score 13.8

Published 2026-04-07 · First seen 2026-04-10

General AI

Open paper source

Abstract

The serving paradigm of large language models (LLMs) is rapidly shifting towards complex multi-agent workflows where specialized agents collaborate over massive shared contexts. While Low-Rank Adaptation (LoRA) enables the efficient co-hosting of these specialized agents on a single base model, it introduces a critical memory footprint bottleneck during serving. Specifically, unique LoRA activations cause Key-Value (KV) cache divergence across agents, rendering traditional prefix caching ineffective for shared contexts. This forces redundant KV cache maintenance, rapidly saturating GPU capacity and degrading throughput. To address this challenge, we introduce ForkKV, a serving system for multi-LoRA agent workflows centered around a novel memory management paradigm in OS: fork with copy-on-write (CoW). By exploiting the structural properties of LoRA, ForkKV physically decouples the KV cache into a massive shared component (analogous to the parent process's memory pages) and lightweight agent-specific components (the child process's pages). To support this mechanism, we propose a DualRadixTree architecture that allows newly forked agents to inherit the massive shared cache and apply CoW semantics for their lightweight unique cache. Furthermore, to guarantee efficient execution, we design ResidualAttention, a specialized kernel that reconstructs the disaggregated KV cache directly within on-chip SRAM. Comprehensive evaluations across diverse language models and practical datasets of different tasks demonstrate that ForkKV achieves up to 3.0x the throughput of state-of-the-art multi-LoRA serving systems with a negligible impact on generation quality.

Workflow Status

Review status
pending
Role
unreviewed
Read priority
now
Vote
Not set.
Saved
no
Collections
Not filed yet.
Next action
Not filled yet.

Reading Brief

No structured notes yet. Add `summary_sections`, `why_relevant`, `claim_impact`, or `next_action` in `papers.jsonl` to enrich this view.

Why It Surfaced

No ranking explanation is available yet.

Tags

No tags.

Similar Papers

Mango: Multi-Agent Web Navigation via Global-View Optimization 2026-04-20 · Score 10.5 Research Track B · General AI Recursive Multi-Agent Systems 2026-04-28 · Score 16.8 General AI DIRECT: Video Mashup Creation via Hierarchical Multi-Agent Planning and Intent-Guided Editing 2026-04-06 · Score 17.8 General AI Scaling Teams or Scaling Time? Memory Enabled Lifelong Learning in LLM Multi-Agent Systems 2026-03-27 · Score 13.8 Research Track A · General AI Latent Phase-Shift Rollback: Inference-Time Error Correction via Residual Stream Monitoring and KV-Cache Steering 2026-04-20 · Score 11.3 General AI

BibTeX

@article{wang2026forkkv,
  title = {ForkKV: Scaling Multi-LoRA Agent Serving via Copy-on-Write Disaggregated KV Cache},
  author = {Shao Wang and Rui Ren and Lin Gui},
  year = {2026},
  abstract = {The serving paradigm of large language models (LLMs) is rapidly shifting towards complex multi-agent workflows where specialized agents collaborate over massive shared contexts. While Low-Rank Adaptation (LoRA) enables the efficient co-hosting of these specialized agents on a single base model, it introduces a critical memory footprint bottleneck during serving. Specifically, unique LoRA activations cause Key-Value (KV) cache divergence across agents, rendering traditional prefix caching ineffec},
  url = {https://arxiv.org/abs/2604.06370},
  keywords = {cs.DC, cs.LG},
  eprint = {2604.06370},
  archiveprefix = {arXiv},
}

Metadata

{}