MemReranker: Reasoning-Aware Reranking for Agent Memory Retrieval
Paper β’ 2605.06132 β’ Published β’ 1
Encoder v0 β Memory Encoder for LycheeMem
A LoRA adapter on top of Qwen2.5-0.5B-Instruct that turns conversation turns into structured MemoryRecord JSON (typed, atomic, with entities / temporal / evidence span / source_role). Trained by distilling DeepSeek V4 Flash and selecting high-quality candidates via a 4-dim verifier.
Designed as a drop-in encoder for LycheeMem's write-side memory pipeline, with physical JSON schema guarantee via constrained decoding (outlines + Pydantic).
Highlights
- 8.7 MB LoRA adapter on a 0.5B base β runs locally on a single RTX 4060 Ti 8GB, zero API cost
- +125% weighted_score over the runtime Qwen2.5-7B baseline on a 519-sample held set
- 100% JSON schema compliance with constrained decoding (vs 74% for runtime baseline, 96-98% for SOTA prompt-only)
- 4Γ faster than the runtime baseline (3.4s vs 20s p50 latency)
- On LongMemEval-style task dialogs, outperforms even Qwen2.5-72B and V4 Flash teacher on weighted_score (3.749 vs 3.666 / 3.700)
Evaluation
Evaluated on 519 held-out conversation segments (LongMemEval-S + MSC-MemFuse-MC10, English personal dialogs). The weighted_score is a 4-dim LLM-as-judge metric (V4 Flash) on atomicity / self_containedness / entity_coverage / evidence_alignment, weighted 0.25 / 0.30 / 0.20 / 0.25, with failures scored 0 (out of 5.0).
7-Model Leaderboard
| rank | model | size | weighted_score | schema_ok | latency p50 |
|---|---|---|---|---|---|
| 1 | DeepSeek-V3 | 671B (MoE) | 4.057 | 96.9% | 44s |
| 2 | Qwen2.5-72B-Instruct | 72B | 3.951 | 98.8% | 33s |
| 3 | DeepSeek V4 Flash (teacher) | β | 3.833 | 95.8% | 14s |
| 4 | encoder_v0 (this model) | 0.5B + LoRA | 3.775 | 100.0% | 3.4s |
| 5 | Qwen3-32B | 32B | 3.476 | 97.7% | 67s |
| 6 | Qwen2.5-14B-Instruct | 14B | 1.946 | 80.5% | 19s |
| 7 | Qwen2.5-7B-Instruct (runtime baseline) | 7B | 1.679 | 74.0% | 20s |
4-Dim Quality Breakdown
| model | atomicity | self_cont | entity_cov | evidence |
|---|---|---|---|---|
| DeepSeek-V3 | 4.61 | 4.90 | 4.27 | 3.60 |
| Qwen2.5-72B | 4.89 | 4.85 | 4.14 | 3.54 |
| V4 Flash (teacher) | 4.48 | 4.88 | 4.21 | 3.94 |
| encoder_v0 | 4.53 | 4.51 | 2.93 β οΈ | 3.30 |
| Qwen3-32B | 4.38 | 4.74 | 4.13 | 3.18 |
| Qwen2.5-7B | 4.20 | 4.47 | 3.27 | 2.98 |
entity_coverage is the model's main known weakness (1.0-1.3 points below SOTA), planned to be addressed in v2.
Per-Source Breakdown
| model | LongMemEval | MSC |
|---|---|---|
| DeepSeek-V3 | 3.871 | 4.357 |
| Qwen2.5-72B | 3.666 | 4.408 |
| V4 Flash (teacher) | 3.700 | 4.047 |
| encoder_v0 | 3.749 | 3.817 |
| Qwen2.5-7B (baseline) | 1.330 | 2.241 |
On task-oriented dialogs (LongMemEval), encoder_v0 actually surpasses both Qwen2.5-72B and the V4 Flash teacher.
Training
Pipeline:
Stage 1: 5000 conversation segments from LongMemEval-S + MSC-MemFuse-MC10
Stage 2a: V4 Flash distillation β 4769 candidate record sets
Stage 2b: Rule + V4 Flash verifier (4-dim β₯ 4.0) β 2590 pseudo-gold
Stage 2c: +394 synthetic advice-class samples (gold = empty records)
Stage 3: LoRA SFT on Qwen2.5-0.5B-Instruct
rank=16, alpha=32, dropout=0.05
target_modules = q_proj, k_proj, v_proj, o_proj
3 epochs, batch=1*accum16, lr=2e-4, bf16
28.5 min on RTX 4060 Ti 8GB
Trainable params: 2.16M / 496M = 0.44%
Final eval loss: 0.293
Total training cost: ~Β₯24 (API for distillation + verifier) + 28 min local GPU.
Intended Use
Primary use: Drop-in write-side encoder for LycheeMem (or similar long-term memory systems) that takes a conversation segment and outputs MemoryRecord JSON suitable for storage and downstream retrieval.
Input format:
{
"previous_turns": [{"role": "user", "content": "..."}, ...], # optional
"current_turns": [{"role": "user", "content": "..."}, ...], # required
"session_date": "2026-05-12" # optional, ISO or freeform
}
Output format (strict JSON, guaranteed by constrained decoding):
{
"records": [
{
"memory_type": "fact|preference|event|constraint|procedure|failure_pattern|tool_affordance",
"semantic_text": "User plans to visit Beijing on 2026-05-20 to meet Li Hua.",
"entities": ["Beijing", "Li Hua"],
"temporal": {"t_ref": "2026-05-12", "t_valid_from": "2026-05-20", "t_valid_to": ""},
"tags": ["travel", "meeting"],
"evidence_turns": [0],
"source_role": "user"
}
]
}
How to Use
Install dependencies
pip install transformers peft outlines pydantic torch
Inference (with constrained decoding β recommended)
import torch
import outlines
from transformers import AutoTokenizer, AutoModelForCausalLM
from peft import PeftModel
from pydantic import BaseModel
from typing import Literal
# 1. Load base + LoRA adapter
BASE = "Qwen/Qwen2.5-0.5B-Instruct"
ADAPTER = "fuhao23/encoder_v0"
tok = AutoTokenizer.from_pretrained(BASE, trust_remote_code=True)
base = AutoModelForCausalLM.from_pretrained(
BASE, torch_dtype=torch.bfloat16, device_map="auto", trust_remote_code=True
)
model_hf = PeftModel.from_pretrained(base, ADAPTER).eval()
# 2. Define output schema (must match the schema used in training)
class Temporal(BaseModel):
t_ref: str = ""
t_valid_from: str = ""
t_valid_to: str = ""
class MemoryRecord(BaseModel):
memory_type: Literal["fact", "preference", "event", "constraint",
"procedure", "failure_pattern", "tool_affordance"]
semantic_text: str
entities: list[str]
temporal: Temporal
tags: list[str]
evidence_turns: list[int]
source_role: Literal["user", "assistant", "both", ""]
class MemoryRecordList(BaseModel):
records: list[MemoryRecord]
model = outlines.from_transformers(model_hf, tok)
generator = outlines.Generator(model, MemoryRecordList)
# 3. The system prompt this adapter was trained on (use COMPACT_ENCODING_SYSTEM
# from LycheeMem: src/memory/semantic/prompts.py:13-85). Must use as-is.
SYSTEM_PROMPT = """You are a memory extractor for a personal AI assistant's
long-term memory system. ... (full prompt in LycheeMem repo)"""
# 4. Build user content + encode
user_content = """\
<PREVIOUS_TURNS>
(no previous turns)
</PREVIOUS_TURNS>
<CURRENT_TURNS>
user: I want to try out my new slow cooker from Bed Bath & Beyond.
assistant: Congratulations! Slow cookers are great for ...
user: Thanks for the cleaning tips.
</CURRENT_TURNS>"""
prompt = tok.apply_chat_template(
[{"role": "system", "content": SYSTEM_PROMPT},
{"role": "user", "content": user_content}],
tokenize=False, add_generation_prompt=True,
)
output = generator(prompt, max_new_tokens=1024)
print(output)
# Output: strict JSON of {"records": [...]}
Inference (without constrained decoding β not recommended)
The model CAN be used without outlines, but schema compliance drops from 100% to ~64% due to base Qwen2.5-0.5B's tendency to regress to conversation-continuation mode on assistant-advice-heavy inputs. Always use constrained decoding for production.
Limitations
This is a v0 research release. Read carefully before deployment:
LLM-as-judge bias in evaluation. The
weighted_scoreis computed using V4 Flash as judge β the same model family as the teacher. Comparisons against models stronger than V4 Flash (Qwen2.5-72B, DeepSeek-V3) may have ceiling effects; the precise SOTA ranking around rank 1-4 is not fully reliable.No human ground truth. No human annotator has labeled records as "good / bad" β judge consistency with humans is unverified. Recommended next step: 50-sample human annotation + Cohen's kappa.
No downstream retrieval evaluation. The original training plan included an
evidence retrieval hit@10benchmark on LongMemEval β this is not yet completed. The current metrics measure encoder output quality in isolation, not the end-to-end impact on memory retrieval accuracy.Narrow evaluation distribution. The 519-sample held set is entirely English personal-dialog (LongMemEval + MSC). Chinese, technical, code, and long-context dialogs are not evaluated. OOD deployment may degrade.
Entity coverage weakness.
entity_coverage4-dim score is 2.93 vs SOTA 4.1-4.3 β the encoder under-extracts named entities. Planned fix in v2 with entity-rich training data.Constrained decoding is required for the headline 100% schema_ok. Without
outlines, schema compliance drops to ~64%.Not yet integrated into LycheeMem runtime. No real-traffic data β quality on actual user dialogs vs the eval set is untested.
Method Background
Pipeline and evaluation methodology documented in detail at the LycheeMem repository:
docs/encoder_v0.mdβ full evaluation report with case studiesdocs/encoder_eval_framework.mdβ evaluation frameworkexamples/encoder_v0_try.pyβ interactive try-it tool
Inspired by MemReranker's small-model distillation methodology for memory systems.
Citation
@misc{lycheemem_encoder_v0,
title = {Encoder v0: A Distilled Memory Encoder for Long-Term Conversation Memory},
author = {LycheeMem},
year = {2026},
url = {https://huggingface.co/fuhao23/encoder_v0}
}
Base model:
@misc{qwen2.5,
title = {Qwen2.5: A Party of Foundation Models},
author = {Qwen Team},
year = {2024}
}
License
Apache 2.0 (matches base Qwen2.5-0.5B-Instruct license).
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