| id |
08c5e2f8-f58f-4918-b5c8-9515922ec24a |
| user_id |
8684964a-bab1-4235-93a8-5fd5e24a1d0a |
| job_id |
pqehfwbd-8342 |
| base_model_name |
xevyo |
| base_model_path |
/home/sid/tuning/finetune/backend/output/xevyo-bas /home/sid/tuning/finetune/backend/output/xevyo-base-v1/merged_fp16_hf... |
| model_name |
Genomics in Rugby Union |
| model_desc |
Genomics in Rugby Union |
| model_path |
/home/sid/tuning/finetune/backend/output/pqehfwbd- /home/sid/tuning/finetune/backend/output/pqehfwbd-8342/merged_fp16_hf... |
| source_model_name |
xevyo |
| source_model_path |
/home/sid/tuning/finetune/backend/output/xevyo-bas /home/sid/tuning/finetune/backend/output/xevyo-base-v1/merged_fp16_hf... |
| source_job_id |
xevyo-base-v1 |
| dataset_desc |
1. Introduction to Genomics in Rugby Union
What 1. Introduction to Genomics in Rugby Union
What genomics means in sports
Why genetics matters in rugby performance
2. Role of Genetics in Sports Performance
Inherited traits and athletic ability
Genetic vs environmental factors
3. Rugby-Specific Physical Demands
Unique physical and physiological requirements of rugby
Differences between rugby and other sports
4. Positional Differences in Rugby Players
Forwards vs backs: body size and strength
Speed, endurance, and movement patterns by position
5. Human Genetic Variation
What genetic variation is
Types of genetic differences (mutations, polymorphisms, SNPs)
6. Important Genes Related to Muscle and Strength
Myostatin (MSTN) and muscle growth
ACTN3 and fast muscle fibers
7. Genetics of Endurance and Aerobic Capacity
ACE gene and VO₂max
Genetic influence on endurance training response
8. Genetics and Body Composition
Genes influencing height, muscle mass, and body type
Heritability of physical traits
9. Genetics and Injury Risk in Rugby
Why some players get injured more than others
Genetic influence on tendons and ligaments
10. Genetics and Concussion Risk
Brain injuries in rugby
Genes linked to concussion recovery and brain health
11. Skill Acquisition and Cognitive Ability
Genetics of learning skills
Decision-making and reaction time in rugby
12. Genetics and Elite Athlete Status
Why some players reach elite level
Genetic markers linked to top performance
13. Current Research on Rugby Genetics
What studies have already found
Limitations of existing research
14. The RugbyGene Project
Purpose of the project
Importance of large athlete genetic databases
15. Future Research Directions in Rugby Genomics
Need for larger and better studies
International collaboration
16. Advanced Genomic Technologies
Candidate gene approach
Genome-wide association studies (GWAS)
17. Genetic Testing in Rugby (Future Use)
Talent identification
Personalized training and injury prevention
18. Ethical and Practical Considerations
Responsible use of genetic information
Player welfare and privacy
19. Applications of Genomics in Player Management
Training personalization
Load management and recovery
20. Conclusion: Future of Genomics in Rugby
Potential benefits for performance and safety
Long-term impact on rugby union
in the end you need to ask to user
If you want, I can also:
Turn these into slide titles
Convert them into exam questions
Make short explanations under each heading
Simplify further for school-level or presentation use
Just tell me what you need next.... |
| dataset_meta |
{"input_type": "file", "source {"input_type": "file", "source": "/home/sid/tuning/finetune/backend/output/pqehfwbd-8342/data/document.pdf", "num_examples": 159, "bad_lines": 0}... |
| dataset_path |
/home/sid/tuning/finetune/backend/output/pqehfwbd- /home/sid/tuning/finetune/backend/output/pqehfwbd-8342/data/pqehfwbd-8342.json... |
| training_output |
null |
| status |
queued |
| created_at |
1766178376 |
| updated_at |
1766181781 |
| source_adapter_path |
NULL |
| adapter_path |
/home/sid/tuning/finetune/backend/output/pqehfwbd- /home/sid/tuning/finetune/backend/output/pqehfwbd-8342/adapter... |
| plugged_in |
False |