GoodAI-LTM equips agents with text-based long-term memory by combining essential components such as text embedding models, reranking, vector databases, memory and query rewriting, automatic chunking, chunk metadata, and chunk expansion. This package is specifically designed to offer a dialog-centric memory stream for social agents.
Additionally, GoodAI-LTM includes a conversational agent component (LTMAgent) for seamless integration into Python-based apps.
pip install goodai-ltm
Call the reply method of an LTMAgent instance to get a response from the agent.
from goodai.ltm.agent import LTMAgent
agent = LTMAgent(model="gpt-3.5-turbo")
response = agent.reply("What can you tell me about yourself?")
print(response)
The model parameter can be the name of any model supported by the litellm library.
A session history is maintained automatically by the agent. If you want to start a
new session, call the new_session method.
agent.new_session()
print(f"Number of messages in session: {len(agent.session.message_history)}")
The agent has a conversational memory and also a knowledge base. You can tell the agent
to store knowledge by invoking the add_knowledge method.
agent.clear_knowledge()
agent.add_knowledge("The user's birthday is February 10.")
agent.add_knowledge("Refer to the user as 'boss'.")
response = agent.reply("Today is February 10. I think this is an important date. Can you remind me?")
print(response)
LTMAgent is a seamless RAG system. The ltm_agent_with_wiki example
shows how to add Wikipedia articles to the agent's knowledge base.
You can persist the agent's configuration and its memories/knowledge by obtaining
its state as a string via the state_as_text method.
state_text = agent.state_as_text()
# Persist state_text to secondary storage
To build an agent from state text, call the from_state_text method.
agent2 = LTMAgent.from_state_text(state_text)
Note that this does not restore the conversation session. To persist the conversation session
call the state_as_text method of the session.
from goodai.ltm.agent import LTMAgentSession
session_state_text = agent.session.state_as_text()
# session_state_text can be persisted in secondary storage
# The session.session_id field can serve as an identifier of the persisted session
# Now let's restore the session in agent2
p_session = LTMAgentSession.from_state_text(session_state_text)
agent2.use_session(p_session)
The following code snippet creates an instance of the LTM, loads in some text and then retrieves the most relevant text passages (expanded chunks) given a query:
from goodai.ltm.mem.auto import AutoTextMemory
mem = AutoTextMemory.create()
mem.add_text("Lorem ipsum dolor sit amet, consectetur adipiscing elit\n")
mem.add_text("Duis aute irure dolor in reprehenderit in voluptate velit esse cillum dolore\n",
metadata={'title': 'My document', 'tags': ['latin']})
r_memories = mem.retrieve(query='dolorem eum fugiat quo voluptas nulla pariatur?', k=3)
A default memory instance can be created as follows:
from goodai.ltm.mem.auto import AutoTextMemory
mem = AutoTextMemory.create()
You can also configure the memory by passing parameters to the create method.
In the following example, the memory uses a "gpt2" tokenizer
for chunking, a T5 model for embeddings, a
FAISS index for embedding storage instead of a simple vector
database, and a custom chunking configuration.
import torch
from transformers import AutoTokenizer
from goodai.ltm.embeddings.auto import AutoTextEmbeddingModel
from goodai.ltm.mem.auto import AutoTextMemory
from goodai.ltm.mem.config import TextMemoryConfig
from goodai.ltm.mem.mem_foundation import VectorDbType
embedding_model = AutoTextEmbeddingModel.from_pretrained('st:sentence-transformers/sentence-t5-base')
tokenizer = AutoTokenizer.from_pretrained('gpt2')
config = TextMemoryConfig()
config.chunk_capacity = 30 # tokens
config.queue_capacity = 10000 # chunks
mem = AutoTextMemory.create(emb_model=embedding_model,
matching_model=None,
tokenizer=tokenizer,
vector_db_type=VectorDbType.FAISS_FLAT_L2,
config=config,
device=torch.device('cuda:0'))
Call the add_text method to add text to the memory.
Text may consist of phrases, sentences or documents.
mem.add_text("Lorem ipsum dolor sit amet, consectetur adipiscing elit\n")
Internally, the memory will chunk and index the text automatically.
Text can be associated with an arbitrary metadata dictionary, such as:
mem.add_text("Duis aute irure dolor in reprehenderit in voluptate velit esse cillum dolore\n",
metadata={'title': 'My document', 'tags': ['latin']})
The memory concatenates text stored using add_text with any text previously sent to the memory,
but you can call add_separator to ensure that new text is not added to previously created chunks.
To retrieve a list of passages associated with a query,
call the retrieve method:
r_memories = mem.retrieve("What does Jake propose?", k=2)
The retrieve method returns a list of objects of type RetrievedMemory, in descending order of
relevance. Each retrieved memory has the following properties:
passage: The text of the memory. This corresponds to text found in a matching chunk, but it may be expanded using text from adjacent chunks.timestamp: The time (seconds since Epoch by default) when the retrieved chunk was created.distance: Calculated distance between the query and the chunk passage.relevance: A number between 0 and 1 representing the relevance of the retrieved memory.confidence: If a query-passage matching model is available, this is the probability assigned by the model.metadata: Metadata associated with the retrieved text, if any.
An embedding model is loaded as follows:
from goodai.ltm.embeddings.auto import AutoTextEmbeddingModel
em = AutoTextEmbeddingModel.from_pretrained(model_name)
The model_name can be one of the following:
- A SentenceTransformer (Huggingface), starting with
"st:", for example,"st:sentence-transformers/multi-qa-mpnet-base-cos-v1". - A flag embedding model, starting with
"flag:", for example,"flag:BAAI/bge-base-en-v1.5". - An OpenAI embedding model name, starting with
"openai:", for example,"openai:text-embedding-ada-002". - One of our fine-tuned models:
| Name | Base model | # parameters | # storage emb |
|---|---|---|---|
| em-MiniLM-p1-01 | multi-qa-MiniLM-L6-cos-v1 | 22.7m | 1 |
| em-MiniLM-p3-01 | multi-qa-MiniLM-L6-cos-v1 | 22.7m | 3 |
| em-distilroberta-p1-01 | sentence-transformers/all-distrilroberta-v1 | 82.1m | 1 |
| em-distilroberta-p3-01 | sentence-transformers/all-distrilroberta-v1 | 82.1m | 3 |
| em-distilroberta-p5-01 | sentence-transformers/all-distrilroberta-v1 | 82.1m | 5 |
To get embeddings for a list of queries, call
the encode_queries method, as follows:
r_emb = em.encode_queries(['hello?'])
This returns a numpy array. To get a Pytorch tensor,
add the convert_to_tensor parameter:
r_emb = em.encode_queries(['hello?'], convert_to_tensor=True)
To get embeddings for a list of passages, call
the encode_corpus method, as follows:
s_emb = em.encode_corpus(['it was...', 'the best of...'])
Queries and passages can have more than one embedding. Embedding tensors have 3 axes: The batch size, the number of embeddings, and the number of embedding dimensions. Typically, the number of embeddings per query/passage will be 1, with some exceptions.
A query-passage matching/reranking model can be loaded as follows:
from goodai.ltm.reranking.auto import AutoTextMatchingModel
model = AutoTextMatchingModel.from_pretrained(model_name)
The model_name can be one of the following:
- A "st:" prefix followed by the name of a Huggingface cross-encoder compatible with the SentenceTransformers library, like "st:cross-encoder/stsb-distilroberta-base"
- An "em:" prefix followed by the name of an embedding model supported by this library, like "em:openai:text-embedding-ada-002" or "em:em-distilroberta-p3-01"
Memory instances, by default, do not use a query-passage matching model. To enable one, it should be configured as follows:
from goodai.ltm.embeddings.auto import AutoTextEmbeddingModel
from goodai.ltm.mem.auto import AutoTextMemory
from goodai.ltm.mem.config import TextMemoryConfig
from goodai.ltm.reranking.auto import AutoTextMatchingModel
# Low-resource embedding model
emb_model = AutoTextEmbeddingModel.from_pretrained('em-MiniLM-p1-01')
# QPM model that boosts retrieval accuracy
qpm_model = AutoTextMatchingModel.from_pretrained('em:em-distilroberta-p5-01')
config = TextMemoryConfig()
config.reranking_k_factor = 8
mem = AutoTextMemory.create(matching_model=qpm_model, emb_model=emb_model, config=config)
The reranking_k_factor setting tells the memory how many candidates it should consider
for reranking. The user requests k memories. The reranking algorithm considers
k * reranking_k_factor chunks.
The predict method of the model takes a list of
query-passage tuples and returns a list of floats
representing estimated match probabilities. Example:
model = AutoTextMatchingModel.from_pretrained('em:em-distilroberta-p5-01')
sentences = [
('Mike: What is your favorite color?', 'Steve: My favorite color is purple.'),
('Name the inner planets.', 'It was the best of times, it was the worst of times.'),
]
prob = model.predict(sentences)
print(prob)
See the evaluations README.
Refer to the goodai-ltm-benchmark project page.
Additional example code can be found in the examples folder.