Model Card for Model ID
This model is used to assist in the Sustainability of construction works using BSI Standards.
Model Details
Model Description
This model is trained using ChatGLM2-6B as the basic model. This model is trained with the content of BSI Standards. The BSI Standards include "Sustainability of construction works β Assessment of environmental performance of buildings β Calculation method" (BS EN 15978:2011) and "Sustainability of construction works β Environmental product declarations β Core rules for the product category of construction products" (BS EN 15804:2012+A2:2019).
- Developed by: [More Information Needed]
- Shared by [optional]: [More Information Needed]
- Model type: [More Information Needed]
- Language(s) (NLP): [More Information Needed]
- License: [More Information Needed]
- Finetuned from model [optional]: [More Information Needed]
Model Sources [optional]
- Repository: [More Information Needed]
- Paper [optional]: [More Information Needed]
- Demo [optional]: [More Information Needed]
Uses
>>> from transformers import AutoTokenizer, AutoModel
>>> tokenizer = AutoTokenizer.from_pretrained("kkkgg/Chat-SCW", trust_remote_code=True)
>>> model = AutoModel.from_pretrained("kkkgg/Chat-SCW", trust_remote_code=True).half().cuda()
>>> model = model.eval()
>>> response, history = model.chat(tokenizer, "Hello", history=[])
>>> print(response)
Hello! How can I assist you today?
>>> response, history = model.chat(tokenizer, "Explan the life cycle stages of a build system.", history=history)
>>> print(response)
The life cycle stages of a build system encompass the entire life of a construction product or service. These stages encompass the following stages:
Material extraction and processing
Manufacturing and processing
Distribution and transportation
End-of-life and disposal
Construction and renovation
Refurbishment and repair
Maintenance and repair
Renewal and replacement of components
End-of-life and disposal
It is important to note that some stages may overlap or be interconnected, and the specific stages involved may vary depending on the type of construction product or service.
Bias, Risks, and Limitations
[More Information Needed]
How to Get Started with the Model
Use the code below to get started with the model.
[More Information Needed]
Training Details
Training Data
[More Information Needed]
Training Procedure
Preprocessing [optional]
[More Information Needed]
Training Hyperparameters
- Training regime: [More Information Needed]
Speeds, Sizes, Times [optional]
[More Information Needed]
Evaluation
Testing Data, Factors & Metrics
Testing Data
[More Information Needed]
Factors
[More Information Needed]
Metrics
[More Information Needed]
Results
[More Information Needed]
Summary
Model Examination [optional]
[More Information Needed]
Environmental Impact
Carbon emissions can be estimated using the Machine Learning Impact calculator presented in Lacoste et al. (2019).
- Hardware Type: [More Information Needed]
- Hours used: [More Information Needed]
- Cloud Provider: [More Information Needed]
- Compute Region: [More Information Needed]
- Carbon Emitted: [More Information Needed]
Technical Specifications [optional]
Model Architecture and Objective
[More Information Needed]
Compute Infrastructure
[More Information Needed]
Hardware
[More Information Needed]
Software
[More Information Needed]
Citation [optional]
BibTeX:
[More Information Needed]
APA:
[More Information Needed]
Glossary [optional]
[More Information Needed]
More Information [optional]
[More Information Needed]
Model Card Authors [optional]
[More Information Needed]
Model Card Contact
[More Information Needed]
- Downloads last month
- 9