152610eda9
* server : add "tokens" output ggml-ci * server : output embeddings for all tokens when pooling = none ggml-ci * server : update readme [no ci] * server : fix spacing [no ci] Co-authored-by: Xuan Son Nguyen <thichthat@gmail.com> * server : be explicit about the pooling type in the tests ggml-ci * server : update /embeddings and /v1/embeddings endpoints ggml-ci * server : do not normalize embeddings when there is no pooling ggml-ci * server : update readme ggml-ci * server : fixes * tests : update server tests ggml-ci * server : update readme [no ci] * server : remove rebase artifact --------- Co-authored-by: Xuan Son Nguyen <thichthat@gmail.com> |
||
---|---|---|
.. | ||
CMakeLists.txt | ||
gritlm.cpp | ||
README.md |
Generative Representational Instruction Tuning (GRIT) Example
gritlm a model which can generate embeddings as well as "normal" text generation depending on the instructions in the prompt.
Retrieval-Augmented Generation (RAG) use case
One use case for gritlm
is to use it with RAG. If we recall how RAG works is
that we take documents that we want to use as context, to ground the large
language model (LLM), and we create token embeddings for them. We then store
these token embeddings in a vector database.
When we perform a query, prompt the LLM, we will first create token embeddings for the query and then search the vector database to retrieve the most similar vectors, and return those documents so they can be passed to the LLM as context. Then the query and the context will be passed to the LLM which will have to again create token embeddings for the query. But because gritlm is used the first query can be cached and the second query tokenization generation does not have to be performed at all.
Running the example
Download a Grit model:
$ scripts/hf.sh --repo cohesionet/GritLM-7B_gguf --file gritlm-7b_q4_1.gguf --outdir models
Run the example using the downloaded model:
$ ./llama-gritlm -m models/gritlm-7b_q4_1.gguf
Cosine similarity between "Bitcoin: A Peer-to-Peer Electronic Cash System" and "A purely peer-to-peer version of electronic cash w" is: 0.605
Cosine similarity between "Bitcoin: A Peer-to-Peer Electronic Cash System" and "All text-based language problems can be reduced to" is: 0.103
Cosine similarity between "Generative Representational Instruction Tuning" and "A purely peer-to-peer version of electronic cash w" is: 0.112
Cosine similarity between "Generative Representational Instruction Tuning" and "All text-based language problems can be reduced to" is: 0.547
Oh, brave adventurer, who dared to climb
The lofty peak of Mt. Fuji in the night,
When shadows lurk and ghosts do roam,
And darkness reigns, a fearsome sight.
Thou didst set out, with heart aglow,
To conquer this mountain, so high,
And reach the summit, where the stars do glow,
And the moon shines bright, up in the sky.
Through the mist and fog, thou didst press on,
With steadfast courage, and a steadfast will,
Through the darkness, thou didst not be gone,
But didst climb on, with a steadfast skill.
At last, thou didst reach the summit's crest,
And gazed upon the world below,
And saw the beauty of the night's best,
And felt the peace, that only nature knows.
Oh, brave adventurer, who dared to climb
The lofty peak of Mt. Fuji in the night,
Thou art a hero, in the eyes of all,
For thou didst conquer this mountain, so bright.