gpt4-alpaca LLM: Versions, Prompt Templates & Hardware Requirements

Updated: 2023-08-31 |

Explore all versions of the model, their file formats like GGML, GPTQ, and HF, and understand the hardware requirements for local inference.

gpt4-alpaca model leverages the conversational specialization of GPT4 Alpaca LoRA and combines it with LLaMA's general capabilities. The optimized training makes the merged model behave like chatbot. It provides a balanced chat-capable model without massive resource requirements by bringing together GPT4 Alpaca LoRA and LLaMA.

Hardware requirements

The performance of an gpt4-alpaca model depends heavily on the hardware it's running on. For recommendations on the best computer hardware configurations to handle gpt4-alpaca models smoothly, check out this guide: Best Computer for Running LLaMA and LLama-2 Models.

Below are the gpt4-alpaca hardware requirements for 4-bit quantization:

For 13B Parameter Models

For beefier models like the gpt4-alpaca-lora-13B-GPTQ-4bit-128g, you'll need more powerful hardware. If you're using the GPTQ version, you'll want a strong GPU with at least 10 gigs of VRAM. AMD 6900 XT, RTX 2060 12GB, RTX 3060 12GB, or RTX 3080 would do the trick. For the CPU infgerence (GGML / GGUF) format, having enough RAM is key. You'll want your system to have around 8 gigs available to run it smoothly.

Format RAM Requirements VRAM Requirements
GPTQ (GPU inference) 12GB (Swap to Load*) 10GB
GGML / GGUF (CPU inference) 8GB 500MB
Combination of GPTQ and GGML / GGUF (offloading) 10GB 10GB

*RAM needed to load the model initially. Not required for inference. If your system doesn't have quite enough RAM to fully load the model at startup, you can create a swap file to help with the loading.

For 30B, 33B, and 34B Parameter Models

If you're venturing into the realm of larger models the hardware requirements shift noticeably. GPTQ models benefit from GPUs like the RTX 3080 20GB, A4500, A5000, and the likes, demanding roughly 20GB of VRAM. Conversely, GGML formatted models will require a significant chunk of your system's RAM, nearing 20 GB.

Format RAM Requirements VRAM Requirements
GPTQ (GPU inference) 32GB (Swap to Load*) 20GB
GGML / GGUF (CPU inference) 20GB 500MB
Combination of GPTQ and GGML / GGUF (offloading) 10GB 4GB

*RAM needed to load the model initially. Not required for inference. If your system doesn't have quite enough RAM to fully load the model at startup, you can create a swap file to help with the loading.

For 65B and 70B Parameter Models

When you step up to the big models like 65B and 70B models (gpt4-alpaca-lora_mlp-65B-GGML), you need some serious hardware. For GPU inference and GPTQ formats, you'll want a top-shelf GPU with at least 40GB of VRAM. We're talking an A100 40GB, dual RTX 3090s or 4090s, A40, RTX A6000, or 8000. You'll also need 64GB of system RAM. For GGML / GGUF CPU inference, have around 40GB of RAM available for both the 65B and 70B models.

Format RAM Requirements VRAM Requirements
GPTQ (GPU inference) 64GB (Swap to Load*) 40GB
GGML / GGUF (CPU inference) 40GB 600MB
Combination of GPTQ and GGML / GGUF (offloading) 20GB 20GB

*RAM needed to load the model initially. Not required for inference. If your system doesn't have quite enough RAM to fully load the model at startup, you can create a swap file to help with the loading.

Memory speed

When running gpt4-alpaca AI models, you gotta pay attention to how RAM bandwidth and mdodel size impact inference speed. These large language models need to load completely into RAM or VRAM each time they generate a new token (piece of text). For example, a 4-bit 7B billion parameter gpt4-alpaca model takes up around 4.0GB of RAM.

Suppose your have Ryzen 5 5600X processor and DDR4-3200 RAM with theoretical max bandwidth of 50 GBps. In this scenario, you can expect to generate approximately 9 tokens per second. Typically, this performance is about 70% of your theoretical maximum speed due to several limiting factors such as inference sofware, latency, system overhead, and workload characteristics, which prevent reaching the peak speed. To achieve a higher inference speed, say 16 tokens per second, you would need more bandwidth. For example, a system with DDR5-5600 offering around 90 GBps could be enough.

For comparison, high-end GPUs like the Nvidia RTX 3090 boast nearly 930 GBps of bandwidth for their VRAM. The DDR5-6400 RAM can provide up to 100 GB/s. Therefore, understanding and optimizing bandwidth is crucial for running models like gpt4-alpaca efficiently

Recommendations:

  1. For Best Performance: Opt for a machine with a high-end GPU (like NVIDIA's latest RTX 3090 or RTX 4090) or dual GPU setup to accommodate the largest models (65B and 70B). A system with adequate RAM (minimum 16 GB, but 64 GB best) would be optimal.
  2. For Budget Constraints: If you're limited by budget, focus on gpt4-alpaca GGML/GGUF models that fit within the sytem RAM. Remember, while you can offload some weights to the system RAM, it will come at a performance cost.

Remember, these are recommendations, and the actual performance will depend on several factors, including the specific task, model implementation, and other system processes.

CPU requirements

For best performance, a modern multi-core CPU is recommended. An Intel Core i7 from 8th gen onward or AMD Ryzen 5 from 3rd gen onward will work well. CPU with 6-core or 8-core is ideal. Higher clock speeds also improve prompt processing, so aim for 3.6GHz or more.

Having CPU instruction sets like AVX, AVX2, AVX-512 can further improve performance if available. The key is to have a reasonably modern consumer-level CPU with decent core count and clocks, along with baseline vector processing (required for CPU inference with llama.cpp) through AVX2. With those specs, the CPU should handle gpt4-alpaca model size.