How Long Will My Savings Last?

Translation unavailable — this article is shown in English. View English version

Summary

This calculator answers: “How long will my savings last if I withdraw a fixed amount each month?” It models month-by-month drawdown from a portfolio, factoring in investment growth and inflation-adjusted withdrawal increases.

The concept is central to retirement planning. The landmark Bengen (1994) study and the Trinity Study (1998) established that a 4% initial withdrawal rate, adjusted annually for inflation, has historically survived at least 30 years in the vast majority of market conditions.

How it works

The calculator runs a month-by-month simulation. Each month:

The remaining balance earns investment returns: balance × (1 + monthlyRate)
The monthly withdrawal is subtracted from the balance
At the start of each new year, the withdrawal amount increases by the inflation rate

This continues until the balance reaches zero (depleted) or 100 years have passed (never depleted).

Why inflation matters

If you withdraw a fixed £1,500/month forever, your purchasing power erodes over time. In 20 years at 2.5% annual inflation, £1,500 has the buying power of roughly £900 in today’s terms. The calculator increases your withdrawal each year to maintain purchasing power — which means your savings deplete faster than a naive fixed-withdrawal model suggests.

The formula

B(t+1) = B(t) × (1 + r/12) − W(t)

Where

B(t)= Balance at month t (£)

r= Annual nominal return rate (e.g. 0.04 for 4%)

W(t)= Monthly withdrawal at month t — increases annually by inflation rate

For the special case of zero inflation, a closed-form annuity formula gives the exact number of months:

n = −ln(1 − P × r / W) / ln(1 + r)

Where

n= Number of months until depletion

P= Initial savings (£)

r= Monthly interest rate (annual rate / 12)

W= Fixed monthly withdrawal (£)

This formula only works when W > P × r (i.e., withdrawals exceed monthly interest). If W ≤ P × r, the savings never deplete.

The 4% rule

The 4% rule is the most widely cited guideline for sustainable retirement withdrawals:

Origin: William Bengen’s 1994 paper tested various withdrawal rates against US stock/bond returns from 1926–1995
Finding: A 4% initial withdrawal (inflation-adjusted each year) survived at least 30 years in every historical period tested
Portfolio assumption: 50% US stocks, 50% intermediate-term US Treasury bonds
Trinity Study (1998): Validated Bengen’s findings — 4% had a ~96% success rate across 30-year periods

Practical interpretation: If you have £500,000, the 4% rule says you can withdraw £20,000 in year 1 (£1,667/month), increasing by inflation each year, with high confidence your money lasts 30+ years.

Caveats:

Based on US historical data — UK and global returns may differ
Assumes a balanced stock/bond portfolio, not cash savings
For retirements longer than 30 years (e.g., early retirees), 3.5% is considered safer
Does not account for sequence-of-returns risk in a deterministic model

Worked example

£500,000 savings, £2,000/month withdrawal, 4% return, 2.5% inflation

Monthly interest rate

4% / 12 = 0.3333% per month

= 0.3333%

Year 1 annual withdrawal

£2,000 × 12 = £24,000

= £24,000

Effective withdrawal rate

£24,000 / £500,000 × 100 = 4.8%

= 4.8%

Year 1 end balance (after 12 months of simulation)

£500,000 growing at 4%, minus £24,000 withdrawn

= £495,926

Year 2 withdrawal increases by 2.5%

£2,000 × 1.025 = £2,050/month (£24,600/year)

= £24,600/year

Year 2 end balance

£495,926 growing at 4%, minus £24,600 withdrawn

= £491,075

Continue simulation until balance reaches zero

Month-by-month simulation runs for 306 months

= 25 years 6 months

Result

Savings last 25 years 6 months. Total withdrawn: £841,710 (including £341,710 in investment growth).

Inputs explained

Current savings — your total starting pot (pension, ISA, investments, cash savings)
Monthly withdrawal — how much you withdraw each month in today’s money
Expected annual return — the nominal annual return on your investments (e.g., 4% for a balanced portfolio, 6-7% for equity-heavy)
Annual withdrawal increase (inflation) — how much your withdrawal increases each year to maintain purchasing power (2-3% is typical)

Outputs explained

Time until depletion — how many years and months your savings will last (or “Indefinitely” if returns exceed withdrawals)
Effective withdrawal rate — your annual withdrawal as a percentage of initial savings. Below 4% is generally considered sustainable for 30+ years.
Total withdrawn — the total amount you’ll receive over the full drawdown period (always more than your initial savings if you earn any investment returns)
Verdict — a sustainability assessment:
- Sustainable (green): savings last 30+ years or never deplete
- Caution (amber): savings last 15-30 years
- At risk (red): savings deplete within 15 years
Balance chart — a visual showing your savings balance declining (or growing) over time
Year-by-year table — annual snapshots of balance, withdrawal amount, and cumulative total drawn

Assumptions & limitations

Constant return rate — the calculator assumes a fixed annual return. Real markets fluctuate, and sequence-of-returns risk means that poor returns early in retirement are far more damaging than poor returns later. This is a deterministic model, not a Monte Carlo simulation.
No tax modelling — withdrawals from pensions, ISAs, and general investment accounts have different tax treatments. The calculator shows gross withdrawals only.
Monthly compounding — interest is compounded monthly. Daily compounding would give marginally higher returns but the difference is negligible.
Inflation applies to withdrawals only — the calculator increases your withdrawal by the inflation rate, but does not model the effect of inflation on your portfolio’s real return separately (the return rate is assumed to be the nominal rate).
No fees — investment management fees (typically 0.1-1.5% annually) reduce your effective return rate. Subtract fees from your expected return before entering it.

Verification

No official government calculator exists for savings withdrawal. Verified against hand calculations and the annuity formula.

Savings	Withdrawal	Return	Inflation	Expected time	Verification method
£100,000	£1,000/mo	0%	0%	100 months	Trivial: £100k / £1k = 100
£100,000	£1,000/mo	6%	0%	139 months	Annuity formula: n = −ln(1 − 100000×0.005/1000) / ln(1.005) = 138.98
£500,000	£2,000/mo	4%	2.5%	306 months (25y 6m)	Month-by-month simulation
£100,000	£1,000/mo	0%	5%	< 100 months	Inflation increases withdrawals, depletes faster
£1,000,000	£2,000/mo	8%	2%	Never depletes	Returns (£80k/yr) exceed withdrawals (£24k/yr)

Accounting identity

For every simulation: initialSavings + totalInterestEarned = totalWithdrawn + finalBalance

This identity is verified in unit tests across multiple scenarios.

Sources

Academic

Bengen (1994) — Determining Withdrawal Rates Using Historical Dataaccessed 16 Feb 2026

Academic

Trinity Study — Retirement Spending: Choosing a Sustainable Withdrawal Rateaccessed 16 Feb 2026

Gov

MoneyHelper — Taking your pension as a flexible incomeaccessed 16 Feb 2026

Related calculators

FIRE

Calculate your FIRE number and how long until financial independence. Lean, regular, fat, barista, and custom FIRE modes.

Pension Drawdown

Calculate how long your pension pot will last in drawdown. See your monthly income after tax, 25% tax-free lump sum, withdrawal rate sustainability, and year-by-year projections.

savings withdrawal retirement 4-percent-rule decumulation drawdown