Description from the site:
Mistral AI team is proud to release Mistral 7B, the most powerful language model for its size to date.
Mistral 7B in short
Mistral 7B is a 7.3B parameter model that:
Outperforms Llama 2 13B on all benchmarks
Outperforms Llama 1 34B on many benchmarks
Approaches CodeLlama 7B performance on code, while remaining good at English tasks
Uses Grouped-query attention (GQA) for faster inference
Uses Sliding Window Attention (SWA) to handle longer sequences at smaller cost
We’re releasing Mistral 7B under the Apache 2.0 license, it can be used without restrictions.
Download it and use it anywhere (including locally) with our reference implementation
Deploy it on any cloud (AWS/GCP/Azure), using vLLM inference server and skypilot
Use it on HuggingFace
Mistral 7B is easy to fine-tune on any task. As a demonstration, we’re providing a model fine-tuned for chat, which outperforms Llama 2 13B chat.
swordsmanluke@programming.dev 1 year ago
This looks really interesting!
Some recent studies have shown that (for the performance demonstrated) most models are nowhere near as compact as they could/should be. This means that we should expect an explosion in the capability of small models like this as new techniques find ways to improve our models.
Unfortunately, I couldn’t find a recommendation for how much VRAM you need to run this model, though it does call out being able to run it locally, which is awesome!
I’ll try it out after work and see if it can run on an old 8GB 2070. 😄
TheChurn@kbin.social 1 year ago
It will depend on the representation of the parameters. Most models support bfloat16, where each parameters is 16-bits (2 Bytes). For these models, every Billion parameters needs roughly 2 GB of VRAM.
It is possible to reduce the memory footprint by using 8 bits for each param, and some models support this, but they start to get very stupid.
Sigmatics@lemmy.ca 1 year ago
That would mean 16G are required to run this one
e0qdk@kbin.social 1 year ago
It's not clear to me either on exactly what hardware is required for the reference implementation, but there's a bunch of discussion about getting it to work with llama.cpp in the HN thread, so it might be possible soon (or maybe already is?) to run it on the CPU if you're willing to wait longer for it to process.
Let us know how it goes!