| name | financial-modeling |
| description | Build financial projections, P&L statements, DCF models, and valuation analyses from assumptions and historical data |
| license | MIT |
| metadata | {"author":"community","version":"1.0"} |
Financial Modeling
Build structured financial projections including income statements, discounted cash flow (DCF) models, and valuation analyses. This skill takes a set of business assumptions and transforms them into multi-period financial forecasts with key metrics like NPV, IRR, EBITDA margins, and revenue growth rates. Suitable for startup fundraising, acquisition analysis, budgeting, and strategic planning.
Workflow
-
Define Core Assumptions
Gather all foundational inputs: revenue growth rates, pricing tiers, customer acquisition rates, churn, cost structures, tax rates, discount rates, and terminal growth rates. Validate that assumptions are internally consistent — for example, headcount growth should align with projected revenue capacity. Document each assumption with its source or rationale.
-
Build the Revenue Model
Construct a bottoms-up or top-down revenue forecast depending on available data. For subscription businesses, model MRR by cohort with expansion and churn. For transactional businesses, model volume × average transaction value. Break revenue into segments if the business has multiple product lines or geographies.
-
Project Operating Expenses
Forecast COGS, gross margin, and operating expenses by category: personnel, marketing, R&D, G&A, and infrastructure. Use a mix of fixed and variable cost assumptions. Tie headcount plans to compensation benchmarks. Model economies of scale where applicable — hosting costs per user should decline as volume grows.
-
Calculate Free Cash Flows
Derive EBITDA from the projected P&L, then adjust for capital expenditures, changes in working capital, and taxes to arrive at unlevered free cash flow (UFCF) for each period. Clearly separate operating cash flow from investing and financing activities.
-
Compute Valuation Metrics
Discount projected cash flows using WACC to compute enterprise value via DCF. Calculate terminal value using either a perpetuity growth model or an exit multiple approach. Derive NPV, IRR, and payback period. Run sensitivity tables across discount rate and growth rate ranges.
-
Stress Test and Summarize
Run bear/base/bull scenarios by varying 2-3 key assumptions. Present results in a summary table showing the range of outcomes. Highlight which assumptions have the most impact on valuation.
Usage
Provide your business assumptions, historical financials (if available), and the type of model you need. Specify the projection period and any specific metrics you want calculated.
Example prompt:
Build a 3-year monthly P&L projection for a B2B SaaS startup. Starting MRR is $45K, growing 8% month-over-month for year 1, decelerating to 5% in year 2 and 3% in year 3. Gross margin is 78%. Opex starts at $60K/month and grows 4% monthly. Show EBITDA and cash position.
Examples
Example 1: SaaS Startup 3-Year P&L Projection
Input: B2B SaaS, $45K starting MRR, 8%/5%/3% MoM growth by year, 78% gross margin, $60K starting opex growing 4% monthly.
Output (Year-End Summary):
| Metric | Year 1 | Year 2 | Year 3 |
|---|
| Annual Revenue | $1,012,680 | $2,048,352 | $3,195,744 |
| COGS (22%) | $222,790 | $450,637 | $703,064 |
| Gross Profit | $789,890 | $1,597,715 | $2,492,680 |
| Operating Expenses | $959,328 | $1,530,878 | $2,443,002 |
| EBITDA | ($169,438) | $66,837 | $49,678 |
| EBITDA Margin | -16.7% | 3.3% | 1.6% |
| Cumulative Cash Burn | ($169,438) | ($102,601) | ($52,923) |
The company reaches monthly EBITDA breakeven in month 18. Cumulative cash burn peaks at $169K, suggesting a modest seed round is sufficient. Opex growth outpacing revenue deceleration in year 3 compresses margins — consider flattening hiring in year 3.
Example 2: DCF Model for Small Business Acquisition
Input: Target business generates $500K annual UFCF, growing 6% per year for 5 years. WACC is 12%. Terminal growth rate 2.5%. Acquisition price $2.1M.
Output:
| Year | UFCF | Discount Factor | PV of UFCF |
|---|
| 1 | $530,000 | 0.893 | $473,214 |
| 2 | $561,800 | 0.797 | $447,771 |
| 3 | $595,508 | 0.712 | $423,801 |
| 4 | $631,238 | 0.636 | $401,227 |
| 5 | $669,113 | 0.567 | $379,482 |
- PV of Forecast Period: $2,125,495
- Terminal Value: $669,113 × 1.025 / (0.12 − 0.025) = $7,215,744
- PV of Terminal Value: $7,215,744 × 0.567 = $4,091,327
- Enterprise Value: $6,216,822
- NPV at $2.1M Purchase Price: $4,116,822
- IRR: 31.2%
The acquisition is strongly accretive at the asking price. Sensitivity: if WACC rises to 15%, enterprise value drops to $4.8M — still a clear buy.
Best Practices
- Always separate assumptions from calculations so stakeholders can adjust inputs without modifying formulas.
- Use monthly granularity for the first 1-2 years and quarterly or annual thereafter to balance detail with readability.
- Anchor assumptions in comparable company data or historical performance wherever possible.
- Include a sensitivity analysis on at least two key variables (e.g., growth rate and discount rate).
- Label all units clearly — distinguish between monthly and annual figures, and between thousands and actuals.
- Cross-check the model: net income plus D&A should reconcile to operating cash flow before working capital changes.
Edge Cases
- Pre-revenue startups: Use a bottoms-up TAM/SAM/SOM approach with conversion funnels rather than historical growth rates. Flag that projections are highly speculative.
- Negative free cash flow in all periods: DCF still works but terminal value dominates. Note the sensitivity and consider using a revenue multiple as a sanity check.
- Hyper-growth distortion: When MoM growth exceeds 15%, compounding over 36 months produces unrealistic figures. Cap growth or switch to an S-curve model with a saturation point.
- Currency mismatch: If revenues and costs are in different currencies, model exchange rate assumptions explicitly and show impact of ±10% FX moves.
- Seasonal businesses: Monthly models must account for seasonality. Use historical monthly revenue distribution percentages rather than flat growth assumptions.
