How do I install pytdc?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill pytdc` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does pytdc support?

pytdc works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is pytdc free to use?

Yes. pytdc is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for pytdc?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install pytdc?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill pytdc` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does pytdc support?

pytdc works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is pytdc free to use?

Yes. pytdc is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for pytdc?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install pytdc?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill pytdc` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does pytdc support?

pytdc works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is pytdc free to use?

Yes. pytdc is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for pytdc?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install pytdc?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill pytdc` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does pytdc support?

pytdc works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is pytdc free to use?

Yes. pytdc is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for pytdc?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install pytdc?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill pytdc` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does pytdc support?

pytdc works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is pytdc free to use?

Yes. pytdc is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for pytdc?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install pytdc?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill pytdc` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does pytdc support?

pytdc works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is pytdc free to use?

Yes. pytdc is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for pytdc?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install pytdc?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill pytdc` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does pytdc support?

pytdc works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is pytdc free to use?

Yes. pytdc is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for pytdc?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install pytdc?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill pytdc` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does pytdc support?

pytdc works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is pytdc free to use?

Yes. pytdc is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for pytdc?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install pytdc?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill pytdc` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does pytdc support?

pytdc works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is pytdc free to use?

Yes. pytdc is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for pytdc?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install pytdc?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill pytdc` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does pytdc support?

pytdc works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is pytdc free to use?

Yes. pytdc is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for pytdc?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install pytdc?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill pytdc` in your terminal. You need to have run `npx skills init` once in your project first.

Science

pytdc▌

K-Dense-AI/scientific-agent-skills · updated Jun 4, 2026

MDX-style export adds YAML metadata + attribution linking explainx.ai and this canonical listing URL.

$npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill pytdc

0 commentsdiscussion

summary

### Pytdc

›name: "pytdc"
›description: "Therapeutics Data Commons. AI-ready drug discovery datasets (ADME, toxicity, DTI), benchmarks, scaffold splits, molecular oracles, for therapeutic ML and pharmacological prediction."

skill.md

name	pytdc
description	Therapeutics Data Commons. AI-ready drug discovery datasets (ADME, toxicity, DTI), benchmarks, scaffold splits, molecular oracles, for therapeutic ML and pharmacological prediction.
license	MIT license
metadata	version: "1.0" skill-author: K-Dense Inc.

PyTDC (Therapeutics Data Commons)

Overview

PyTDC is an open-science platform providing AI-ready datasets and benchmarks for drug discovery and development. Access curated datasets spanning the entire therapeutics pipeline with standardized evaluation metrics and meaningful data splits, organized into three categories: single-instance prediction (molecular/protein properties), multi-instance prediction (drug-target interactions, DDI), and generation (molecule generation, retrosynthesis).

When to Use This Skill

This skill should be used when:

Working with drug discovery or therapeutic ML datasets
Benchmarking machine learning models on standardized pharmaceutical tasks
Predicting molecular properties (ADME, toxicity, bioactivity)
Predicting drug-target or drug-drug interactions
Generating novel molecules with desired properties
Accessing curated datasets with proper train/test splits (scaffold, cold-split)
Using molecular oracles for property optimization

Installation & Setup

Install PyTDC using pip:

uv pip install PyTDC

To upgrade to the latest version:

uv pip install PyTDC --upgrade

Core dependencies (automatically installed):

numpy, pandas, tqdm, seaborn, scikit_learn, fuzzywuzzy

Additional packages are installed automatically as needed for specific features.

Quick Start

The basic pattern for accessing any TDC dataset follows this structure:

from tdc.<problem> import <Task>
data = <Task>(name='<Dataset>')
split = data.get_split(method='scaffold', seed=1, frac=[0.7, 0.1, 0.2])
df = data.get_data(format='df')

Where:

<problem>: One of single_pred, multi_pred, or generation
<Task>: Specific task category (e.g., ADME, DTI, MolGen)
<Dataset>: Dataset name within that task

Example - Loading ADME data:

from tdc.single_pred import ADME
data = ADME(name='Caco2_Wang')
split = data.get_split(method='scaffold')
# Returns dict with 'train', 'valid', 'test' DataFrames

Single-Instance Prediction Tasks

Single-instance prediction involves forecasting properties of individual biomedical entities (molecules, proteins, etc.).

Available Task Categories

1. ADME (Absorption, Distribution, Metabolism, Excretion)

Predict pharmacokinetic properties of drug molecules.

from tdc.single_pred import ADME
data = ADME(name='Caco2_Wang')  # Intestinal permeability
# Other datasets: HIA_Hou, Bioavailability_Ma, Lipophilicity_AstraZeneca, etc.

Common ADME datasets:

Caco2 - Intestinal permeability
HIA - Human intestinal absorption
Bioavailability - Oral bioavailability
Lipophilicity - Octanol-water partition coefficient
Solubility - Aqueous solubility
BBB - Blood-brain barrier penetration
CYP - Cytochrome P450 metabolism

2. Toxicity (Tox)

Predict toxicity and adverse effects of compounds.

from tdc.single_pred import Tox
data = Tox(name='hERG')  # Cardiotoxicity
# Other datasets: AMES, DILI, Carcinogens_Lagunin, etc.

Common toxicity datasets:

hERG - Cardiac toxicity
AMES - Mutagenicity
DILI - Drug-induced liver injury
Carcinogens - Carcinogenicity
ClinTox - Clinical trial toxicity

3. HTS (High-Throughput Screening)

Bioactivity predictions from screening data.

from tdc.single_pred import HTS
data = HTS(name='SARSCoV2_Vitro_Touret')

4. QM (Quantum Mechanics)

Quantum mechanical properties of molecules.

from tdc.single_pred import QM
data = QM(name='QM7')

5. Other Single Prediction Tasks

Yields: Chemical reaction yield prediction
Epitope: Epitope prediction for biologics
Develop: Development-stage predictions
CRISPROutcome: Gene editing outcome prediction

Data Format

Single prediction datasets typically return DataFrames with columns:

Drug_ID or Compound_ID: Unique identifier
Drug or X: SMILES string or molecular representation
Y: Target label (continuous or binary)

Multi-Instance Prediction Tasks

Multi-instance prediction involves forecasting properties of interactions between multiple biomedical entities.

Available Task Categories

1. DTI (Drug-Target Interaction)

Predict binding affinity between drugs and protein targets.

from tdc.multi_pred import DTI
data = DTI(name='BindingDB_Kd')
split = data.get_split()

Available datasets:

BindingDB_Kd - Dissociation constant (52,284 pairs)
BindingDB_IC50 - Half-maximal inhibitory concentration (991,486 pairs)
BindingDB_Ki - Inhibition constant (375,032 pairs)
DAVIS, KIBA - Kinase binding datasets

Data format: Drug_ID, Target_ID, Drug (SMILES), Target (sequence), Y (binding affinity)

2. DDI (Drug-Drug Interaction)

Predict interactions between drug pairs.

from tdc.multi_pred import DDI
data = DDI(name='DrugBank')
split = data.get_split()

Multi-class classification task predicting interaction types. Dataset contains 191,808 DDI pairs with 1,706 drugs.

3. PPI (Protein-Protein Interaction)

Predict protein-protein interactions.

from tdc.multi_pred import PPI
data = PPI(name='HuRI')

4. Other Multi-Prediction Tasks

GDA: Gene-disease associations
DrugRes: Drug resistance prediction
DrugSyn: Drug synergy prediction
PeptideMHC: Peptide-MHC binding
AntibodyAff: Antibody affinity prediction
MTI: miRNA-target interactions
Catalyst: Catalyst prediction
TrialOutcome: Clinical trial outcome prediction

Generation Tasks

Generation tasks involve creating novel biomedical entities with desired properties.

1. Molecular Generation (MolGen)

Generate diverse, novel molecules with desirable chemical properties.

from tdc.generation import MolGen
data = MolGen(name='ChEMBL_V29')
split = data.get_split()

Use with oracles to optimize for specific properties:

from tdc import Oracle
oracle = Oracle(name='GSK3B')
score = oracle('CC(C)Cc1ccc(cc1)C(C)C(O)=O')  # Evaluate SMILES

See references/oracles.md for all available oracle functions.

2. Retrosynthesis (RetroSyn)

Predict reactants needed to synthesize a target molecule.

from tdc.generation import RetroSyn
data = RetroSyn(name='USPTO')
split = data.get_split()

Dataset contains 1,939,253 reactions from USPTO database.

3. Paired Molecule Generation

Generate molecule pairs (e.g., prodrug-drug pairs).

from tdc.generation import PairMolGen
data = PairMolGen(name='Prodrug')

For detailed oracle documentation and molecular generation workflows, refer to references/oracles.md and scripts/molecular_generation.py.

Benchmark Groups

Benchmark groups provide curated collections of related datasets for systematic model evaluation.

ADMET Benchmark Group

from tdc.benchmark_group import admet_group
group = admet_group(path='data/')

# Get benchmark datasets
benchmark = group.get('Caco2_Wang')
predictions = {}

for seed in [1, 2, 3, 4, 5]:
    train, valid = benchmark['train'], benchmark['valid']
    # Train model here
    predictions[seed] = model.predict(benchmark['test'])

# Evaluate with required 5 seeds
results = group.evaluate(predictions)

ADMET Group includes 22 datasets covering absorption, distribution, metabolism, excretion, and toxicity.

Other Benchmark Groups

Available benchmark groups include collections for:

ADMET properties
Drug-target interactions
Drug combination prediction
And more specialized therapeutic tasks

For benchmark evaluation workflows, see scripts/benchmark_evaluation.py.

Data Functions

TDC provides comprehensive data processing utilities organized into four categories.

1. Dataset Splits

Retrieve train/validation/test partitions with various strategies:

# Scaffold split (default for most tasks)
split = data.get_split(method='scaffold', seed=1, frac=[0.7, 0.1, 0.2])

# Random split
split = data.get_split(method='random', seed=42, frac=[0.8, 0.1, 0.1])

# Cold split (for DTI/DDI tasks)
split = data.get_split(method='cold_drug', seed=1)  # Unseen drugs in test
split = data.get_split(method='cold_target', seed=1)  # Unseen targets in test

Available split strategies:

random: Random shuffling
scaffold: Scaffold-based (for chemical diversity)
cold_drug, cold_target, cold_drug_target: For DTI tasks
temporal: Time-based splits for temporal datasets

2. Model Evaluation

Use standardized metrics for evaluation:

from tdc import Evaluator

# For binary classification
evaluator = Evaluator(name='ROC-AUC')
score = evaluator(y_true, y_pred)

# For regression
evaluator = Evaluator(name='RMSE')
score = evaluator(y_true, y_pred)

Available metrics: ROC-AUC, PR-AUC, F1, Accuracy, RMSE, MAE, R2, Spearman, Pearson, and more.

3. Data Processing

TDC provides 11 key processing utilities:

from tdc.chem_utils import MolConvert

# Molecule format conversion
converter = MolConvert(src='SMILES', dst='PyG')
pyg_graph = converter('CC(C)Cc1ccc(cc1)C(C)C(O)=O')

Processing utilities include:

Molecule format conversion (SMILES, SELFIES, PyG, DGL, ECFP, etc.)
Molecule filters (PAINS, drug-likeness)
Label binarization and unit conversion
Data balancing (over/under-sampling)
Negative sampling for pair data
Graph transformation
Entity retrieval (CID to SMILES, UniProt to sequence)

For comprehensive utilities documentation, see references/utilities.md.

4. Molecule Generation Oracles

TDC provides 17+ oracle functions for molecular optimization:

from tdc import Oracle

# Single oracle
oracle = Oracle(name='DRD2')
score = oracle('CC(C)Cc1ccc(cc1)C(C)C(O)=O')

# Multiple oracles
oracle = Oracle(name='JNK3')
scores = oracle(['SMILES1', 'SMILES2', 'SMILES3'])

For complete oracle documentation, see references/oracles.md.

Advanced Features

Retrieve Available Datasets

from tdc.utils import retrieve_dataset_names

# Get all ADME datasets
adme_datasets = retrieve_dataset_names('ADME')

# Get all DTI datasets
dti_datasets = retrieve_dataset_names('DTI')

Label Transformations

# Get label mapping
label_map = data.get_label_map(name='DrugBank')

# Convert labels
from tdc.chem_utils import label_transform
transformed = label_transform(y, from_unit='nM', to_unit='p')

Database Queries

from tdc.utils import cid2smiles, uniprot2seq

# Convert PubChem CID to SMILES
smiles = cid2smiles(2244)

# Convert UniProt ID to amino acid sequence
sequence = uniprot2seq('P12345')

Common Workflows

Workflow 1: Train a Single Prediction Model

See scripts/load_and_split_data.py for a complete example:

from tdc.single_pred import ADME
from tdc import Evaluator

# Load data
data = ADME(name='Caco2_Wang')
split = data.get_split(method='scaffold', seed=42)

train, valid, test = split['train'], split['valid'], split['test']

# Train model (user implements)
# model.fit(train['Drug'], train['Y'])

# Evaluate
evaluator = Evaluator(name='MAE')
# score = evaluator(test['Y'], predictions)

Workflow 2: Benchmark Evaluation

See scripts/benchmark_evaluation.py for a complete example with multiple seeds and proper evaluation protocol.

Workflow 3: Molecular Generation with Oracles

See scripts/molecular_generation.py for an example of goal-directed generation using oracle functions.

Resources

This skill includes bundled resources for common TDC workflows:

scripts/

load_and_split_data.py: Template for loading and splitting TDC datasets with various strategies
benchmark_evaluation.py: Template for running benchmark group evaluations with proper 5-seed protocol
molecular_generation.py: Template for molecular generation using oracle functions

references/

datasets.md: Comprehensive catalog of all available datasets organized by task type
oracles.md: Complete documentation of all 17+ molecule generation oracles
utilities.md: Detailed guide to data processing, splitting, and evaluation utilities

Additional Resources

Official Website: https://tdcommons.ai
Documentation: https://tdc.readthedocs.io
GitHub: https://github.com/mims-harvard/TDC
Paper: NeurIPS 2021 - "Therapeutics Data Commons: Machine Learning Datasets and Tasks for Drug Discovery and Development"

how to use pytdc

How to use pytdc on Cursor

AI-first code editor with Composer

Prerequisites

Before installing skills in Cursor, ensure your development environment meets these requirements:

›Cursor installed and configured on your development machine
›Node.js version 16.0+ with npm package manager (verify with node --version)
›Active project directory or workspace where you want to add pytdc

Execute installation command

Execute the skills CLI command in your project's root directory to begin installation:

$npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill pytdc

The skills CLI fetches pytdc from GitHub repository K-Dense-AI/scientific-agent-skills and configures it for Cursor.

Select Cursor when prompted

The CLI will show a list of available agents. Use arrow keys to navigate and space to select Cursor:

◆ Which agents do you want to install to?

│

│ ── Universal (.agents/skills) ── always included ────

│ • Amp

│ • Antigravity

│ • Cline

│ • Codex

│ ●Cursor(selected)

│ • Cursor

│ • Windsurf

Verify installation

Confirm successful installation by checking the skill directory location:

.cursor/skills/pytdc

Reload or restart Cursor to activate pytdc. Access the skill through slash commands (e.g., /pytdc) or your agent's skill management interface.

⚠

Security & Verification Notice

We perform automated surface-level scans (Gen AI Scanner, Socket, Snyk) during installation. These checks detect common vulnerabilities but do not guarantee complete security. Always review skill source code and verify the publisher's reputation before production use.

Skills execute code in your development environment. Always verify the publisher's identity, review recent commits, and test in isolated environments before production deployment.

Additional Resources

›View source code on GitHub ›Skills CLI documentation ›Learn more about Cursor ›What are agent skills?

List & Monetize Your Skill

Submit your Claude Code skill and start earning

GET_STARTED →

Use Cases▌

Task Automation & Efficiency

Automate repetitive workflows and reduce manual effort

Example

Generate reports, summarize documents, draft communications

✓

Save 3-5 hours per week on routine tasks

Knowledge Enhancement

Learn new skills, understand complex topics, get expert guidance

Example

Explain concepts, provide examples, suggest learning resources

✓

Accelerate learning and skill development by 2x

Quality Improvement

Enhance output quality through reviews, suggestions, and refinements

Example

Review drafts, suggest improvements, catch errors

✓

Improve work quality by 30-40% with less effort

Implementation Guide▌

Prerequisites

›Claude Desktop or compatible AI client with skill support
›Clear understanding of task or problem to solve
›Willingness to iterate and refine outputs

Time Estimate

15-45 minutes depending on use case complexity

Installation Steps

1.Install skill using provided installation command
2.Test with simple use case relevant to your work
3.Evaluate output quality and relevance
4.Iterate on prompts to improve results
5.Integrate into regular workflow if valuable

Common Pitfalls

⚠Expecting perfect results without iteration
⚠Not providing enough context in prompts
⚠Using skill for tasks outside its intended scope
⚠Accepting outputs without review and validation

Best Practices▌

✓ Do

+Start with clear, specific prompts
+Provide relevant context and constraints
+Review and refine all outputs before using
+Iterate to improve output quality
+Document successful prompt patterns

✗ Don't

−Don't use without understanding skill limitations
−Don't skip validation of outputs
−Don't share sensitive information in prompts
−Don't expect skill to replace human judgment

💡 Pro Tips

★Be specific about desired format and style
★Ask for multiple options to choose from
★Request explanations to understand reasoning
★Combine AI efficiency with human expertise

When to Use This▌

✓ Use When

Use when skill capabilities match your task, clear ROI on time saved, and you can validate outputs. Best for repetitive tasks, learning, and quality improvement.

✗ Avoid When

Avoid when task requires deep expertise you can't validate, involves sensitive decisions, or when learning process is more valuable than speed of completion.

Learning Path▌

1Familiarize yourself with skill capabilities and limitations
2Start with low-risk, non-critical tasks
3Progress to more complex and valuable use cases
4Build expertise through regular use and experimentation

Discussion

Product Hunt–style comments (not star reviews)

No comments yet — start the thread.

general reviews

Ratings

4.4★★★★★48 reviews

★★★★★Li Ghosh· Dec 28, 2024
We added pytdc from the explainx registry; install was straightforward and the SKILL.md answered most questions upfront.
★★★★★Alexander Yang· Dec 20, 2024
pytdc reduced setup friction for our internal harness; good balance of opinion and flexibility.
★★★★★Rahul Santra· Nov 19, 2024
pytdc is among the better-maintained entries we tried; worth keeping pinned for repeat workflows.
★★★★★Li Jain· Nov 19, 2024
Solid pick for teams standardizing on skills: pytdc is focused, and the summary matches what you get after install.
★★★★★Alexander Martin· Nov 11, 2024
I recommend pytdc for anyone iterating fast on agent tooling; clear intent and a small, reviewable surface area.
★★★★★Pratham Ware· Oct 10, 2024
Keeps context tight: pytdc is the kind of skill you can hand to a new teammate without a long onboarding doc.
★★★★★Mei Rahman· Oct 10, 2024
pytdc has been reliable in day-to-day use. Documentation quality is above average for community skills.
★★★★★Anaya Harris· Oct 2, 2024
Useful defaults in pytdc — fewer surprises than typical one-off scripts, and it plays nicely with `npx skills` flows.
★★★★★Sakshi Patil· Sep 25, 2024
Registry listing for pytdc matched our evaluation — installs cleanly and behaves as described in the markdown.
★★★★★James Iyer· Sep 21, 2024
pytdc has been reliable in day-to-day use. Documentation quality is above average for community skills.

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