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timesfm-forecasting

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Zero-shot time series forecasting with Google's TimesFM foundation model. Use for any univariate time series (sales, sensors, energy, vitals, weather) without t

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TimesFM Forecasting

Overview

TimesFM (Time Series Foundation Model) is a pretrained decoder-only foundation model developed by Google Research for time-series forecasting. It works zero-shot — feed it any univariate time series and it returns point forecasts with calibrated quantile prediction intervals, no training required.

This skill wraps TimesFM for safe, agent-friendly local inference. It includes a mandatory preflight system checker that verifies RAM, GPU memory, and disk space before the model is ever loaded so the agent never crashes a user's machine.

Key numbers: TimesFM 2.5 uses 200M parameters (~800 MB on disk, ~1.5 GB in RAM on CPU, ~1 GB VRAM on GPU). The archived v1/v2 500M-parameter model needs ~32 GB RAM. Always run the system checker first.

When to Use This Skill

Use this skill when:

  • Forecasting any univariate time series (sales, demand, sensor, vitals, price, weather)
  • You need zero-shot forecasting without training a custom model
  • You want probabilistic forecasts with calibrated prediction intervals (quantiles)
  • You have time series of any length (the model handles 1–16,384 context points)
  • You need to batch-forecast hundreds or thousands of series efficiently
  • You want a foundation model approach instead of hand-tuning ARIMA/ETS parameters

Do not use this skill when:

  • You need classical statistical models with coefficient interpretation → use statsmodels
  • You need time series classification or clustering → use aeon
  • You need multivariate vector autoregression or Granger causality → use statsmodels
  • Your data is tabular (not temporal) → use scikit-learn

Note on Anomaly Detection: TimesFM does not have built-in anomaly detection, but you can use the quantile forecasts as prediction intervals — values outside the 90% CI (q10–q90) are statistically unusual. See the examples/anomaly-detection/ directory for a full example.

⚠️ Mandatory Preflight: System Requirements Check

CRITICAL — ALWAYS run the system checker before loading the model for the first time.

python scripts/check_system.py

This script checks:

  1. Available RAM — warns if below 4 GB, blocks if below 2 GB
  2. GPU availability — detects CUDA/MPS devices and VRAM
  3. Disk space — verifies room for the ~800 MB model download
  4. Python version — requires 3.10+
  5. Existing installation — checks if timesfm and torch are installed

Note: Model weights are NOT stored in this repository. TimesFM weights (~800 MB) download on-demand from HuggingFace on first use and cache in ~/.cache/huggingface/. The preflight checker ensures sufficient resources before any download begins.

flowchart TD
    accTitle: Preflight System Check
    accDescr: Decision flowchart showing the system requirement checks that must pass before loading TimesFM.

    start["🚀 Run check_system.py"] --> ram{"RAM ≥ 4 GB?"}
    ram -->|"Yes"| gpu{"GPU available?"}
    ram -->|"No (2-4 GB)"| warn_ram["⚠️ Warning: tight RAM<br/>CPU-only, small batches"]
    ram -->|"No (< 2 GB)"| block["🛑 BLOCKED<br/>Insufficient memory"]
    warn_ram --> disk
    gpu -->|"CUDA / MPS"| vram{"VRAM ≥ 2 GB?"}
    gpu -->|"CPU only"| cpu_ok["✅ CPU mode<br/>Slower but works"]
    vram -->|"Yes"| gpu_ok["✅ GPU mode<br/>Fast inference"]
    vram -->|"No"| cpu_ok
    gpu_ok --> disk{"Disk ≥ 2 GB free?"}
    cpu_ok --> disk
    disk -->|"Yes"| ready["✅ READY<br/>Safe to load model"]
    disk -->|"No"| block_disk["🛑 BLOCKED<br/>Need space for weights"]

    classDef ok fill:#dcfce7,stroke:#16a34a,stroke-width:2px,color:#14532d
    classDef warn fill:#fef9c3,stroke:#ca8a04,stroke-width:2px,color:#713f12
    classDef block fill:#fee2e2,stroke:#dc2626,stroke-width:2px,color:#7f1d1d
    classDef neutral fill:#f3f4f6,stroke:#6b7280,stroke-width:2px,color:#1f2937

    class ready,gpu_ok,cpu_ok ok
    class warn_ram warn
    class block,block_disk block
    class start,ram,gpu,vram,disk neutral

Hardware Requirements by Model Version

Model Parameters RAM (CPU) VRAM (GPU) Disk Context
TimesFM 2.5 (recommended) 200M ≥ 4 GB ≥ 2 GB ~800 MB up to 16,384
TimesFM 2.0 (archived) 500M ≥ 16 GB ≥ 8 GB ~2 GB up to 2,048
TimesFM 1.0 (archived) 200M ≥ 8 GB ≥ 4 GB ~800 MB up to 2,048

Recommendation: Always use TimesFM 2.5 unless you have a specific reason to use an older checkpoint. It is smaller, faster, and supports 8× longer context.

🔧 Installation

Step 1: Verify System (always first)

python scripts/check_system.py

Step 2: Install TimesFM

# Using uv (recommended by this repo)
uv pip install timesfm[torch]

# Or using pip
pip install timesfm[torch]

# For JAX/Flax backend (faster on TPU/GPU)
uv pip install timesfm[flax]

Step 3: Install PyTorch for Your Hardware

# CUDA 12.1 (NVIDIA GPU)
pip install torch>=2.0.0 --index-url https://download.pytorch.org/whl/cu121

# CPU only
pip install torch>=2.0.0 --index-url https://download.pytorch.org/whl/cpu

# Apple Silicon (MPS)
pip install torch>=2.0.0  # MPS support is built-in

Step 4: Verify Installation

import timesfm
import numpy as np
print(f"TimesFM version: {timesfm.__version__}")
print("Installation OK")

🎯 Quick Start

Minimal Example (5 Lines)

import torch, numpy as np, timesfm

torch.set_float32_matmul_precision("high")

model = timesfm.TimesFM_2p5_200M_torch.from_pretrained(
    "google/timesfm-2.5-200m-pytorch"
)
model.compile(timesfm.ForecastConfig(
    max_context=1024, max_horizon=256, normalize_inputs=True,
    use_continuous_quantile_head=True, force_flip_invariance=True,
    infer_is_positive=True, fix_quantile_crossing=True,
))

point, quantiles = model.forecast(horizon=24, inputs=[
    np.sin(np.linspace(0, 20, 200)),  # any 1-D array
])
# point.shape == (1, 24)        — median forecast
# quantiles.shape == (1, 24, 10) — 10th–90th percentile bands

Forecast from CSV

import pandas as pd, numpy as np

df = pd.read_csv("monthly_sales.csv", parse_dates=["date"], index_col="date")

# Convert each column to a list of arrays
inputs = [df[col].dropna().values.astype(np.float32) for col in df.columns]

point, quantiles = model.forecast(horizon=12, inputs=inputs)

# Build a results DataFrame
for i, col in enumerate(df.columns):
    last_date = df[col].dropna().index[-1]
    future_dates = pd.date_range(last_date, periods=13, freq="MS")[1:]
    forecast_df = pd.DataFrame({
        "date": future_dates,
        "forecast": point[i],
        "lower_80": quantiles[i, :, 2],  # 20th percentile
        "upper_80": quantiles[i, :, 8],  # 80th percentile
    })
    print(f"\n--- {col} ---")
    print(forecast_df.to_string(index=False))

Forecast with Covariates (XReg)

TimesFM 2.5+ supports exogenous variables through forecast_with_covariates(). Requires timesfm[xreg].

# Requires: uv pip install timesfm[xreg]
point, quantiles = model.forecast_with_covariates(
    inputs=inputs,
    dynamic_numerical_covariates={"price": price_arrays},
    dynamic_categorical_covariates={"holiday": holiday_arrays},
    static_categorical_covariates={"region": region_labels},
    xreg_mode="xreg + timesfm",  # or "timesfm + xreg"
)
Covariate Type Description Example
dynamic_numerical Time-varying numeric price, temperature, promotion spend
dynamic_categorical Time-varying categorical holiday flag, day of week
static_numerical Per-series numeric store size, account age
static_categorical Per-series categorical store type, region, product category

XReg Modes:

  • "xreg + timesfm" (default): TimesFM forecasts first, then XReg adjusts residuals
  • "timesfm + xreg": XReg fits first, then TimesFM

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Вложенные файлы

examples/anomaly-detection/detect_anomalies.pyexamples/anomaly-detection/output/anomaly_detection.jsonexamples/anomaly-detection/output/anomaly_detection.pngexamples/covariates-forecasting/demo_covariates.pyexamples/covariates-forecasting/output/covariates_data.pngexamples/covariates-forecasting/output/covariates_metadata.jsonexamples/covariates-forecasting/output/sales_with_covariates.csvexamples/global-temperature/README.mdexamples/global-temperature/generate_animation_data.pyexamples/global-temperature/generate_gif.pyexamples/global-temperature/generate_html.pyexamples/global-temperature/output/animation_data.jsonexamples/global-temperature/output/forecast_animation.gifexamples/global-temperature/output/forecast_output.csvexamples/global-temperature/output/forecast_output.jsonexamples/global-temperature/output/forecast_visualization.pngexamples/global-temperature/output/interactive_forecast.htmlexamples/global-temperature/run_example.shexamples/global-temperature/run_forecast.pyexamples/global-temperature/temperature_anomaly.csvexamples/global-temperature/visualize_forecast.pyreferences/api_reference.mdreferences/data_preparation.mdreferences/system_requirements.mdscripts/check_system.pyscripts/forecast_csv.py

FAQ

Что делает скилл timesfm-forecasting?

Zero-shot time series forecasting with Google's TimesFM foundation model. Use for any univariate time series (sales, sensors, energy, vitals, weather) without training a custom model. Supports CSV/DataFrame/array inputs with point forecasts and prediction intervals. Includes a preflight system checker script to verify RAM/GPU before first use.

Как установить скилл timesfm-forecasting?

Скопируй папку скилла в ~/.claude/skills (вкладка Claude Code выше делает это одной командой), либо поставь как плагин.

Скилл timesfm-forecasting запускает скрипты?

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