What is the QBTS 30-day expected price range?

As of May 29, 2026, with QBTS at $29.79 and ATM IV at 113.5%, the implied 30-day one-standard-deviation range is approximately ±$9.69, or about $20.10 to $39.48.

What does QBTS risk-neutral density tell us?

Risk-neutral density is the probability distribution of future QBTS price implied by listed option prices. Extracted via Breeden-Litzenberger (twice-differentiating the call price function with respect to strike), it represents the pricing kernel rather than the real-world probability of outcomes. Persistent skew or fat-tail features in the density reflect how the market is pricing tail risk.

How does QBTS ATM IV translate to a probability range?

ATM IV is annualized; multiplying by sqrt(t/365) scales it to the chosen tenor. Under lognormal assumptions, the resulting standard deviation defines the ±1σ band that contains roughly 68% of outcomes, ±2σ for 95%. Empirical equity returns have fatter tails than log-normal, so the implied tail probabilities under-state realized tail frequency in stressed regimes.

D-Wave Quantum Inc. (QBTS) Probability Analysis

Probability analysis extracts the risk-neutral probability distribution implied by option prices. It shows the market-implied likelihood of the underlying reaching various price levels by expiration.

D-Wave Quantum Inc. (QBTS) operates in the Technology sector, specifically the Computer Hardware industry, with a market capitalization near $10.09B, listed on NYSE, employing roughly 216 people, carrying a beta of 1.95 to the broader market. D-Wave Quantum Inc. Led by Alan E. Baratz, public since 2020-12-11.

Snapshot as of May 29, 2026.

Spot Price: $29.79
ATM IV: 113.5%
IV Rank: 46.3%
IV Percentile: 80.6%
HV 20-Day: 134.0%
IV Skew 25Δ: -0.054

As of May 29, 2026, D-Wave Quantum Inc. (QBTS) at $29.79 has an ATM IV of 113.5%, implying a 30-day one-standard-deviation range of approximately ±$9.69. IV rank is 46.3% (near its 1-year median). IV percentile is 80.6%. The 25-delta skew is -0.054: downside tail priced richer than upside, biasing probability mass below spot. Under lognormal assumptions roughly 68% of outcomes fall within ±1σ and 95% within ±2σ; risk-neutral probability analysis refines this by extracting the market-implied distribution directly from options prices, capturing the fat tails that real markets exhibit.

How QBTS probability analysis Data Feeds Strategy Selection

Strategy selection on D-Wave Quantum Inc. options does not derive from any single metric in isolation. The probability analysis view above sits inside a broader read: ATM IV currently sits at 113.5% and dealer gamma exposure is positive, so dealer hedging is mechanically mean-reverting. Combine the probability analysis data here with the volatility-skew surface, dealer-gamma exposure, max-pain level, and upcoming-events calendar to build a positioning thesis. Risk-defined structures (credit spreads, debit spreads, iron condors) are usually safer than naked positions while the regime is uncertain; the data on this page anchors the inputs but does not by itself constitute a trade thesis.

How to read the QBTS probability distribution

The probability cone above is the option-market-implied distribution of where D-Wave Quantum Inc. spot could end up at expiration. It's derived from the implied-volatility surface via a risk-neutral pricing transformation, not from historical realized returns. With ATM IV at 113.5% and spot at $29.79, the 1σ band is approximately ±39.1% over a 30-day horizon. Recent realized HV-20 of 134.0% runs 20.5 vol points above current implied, an inverted regime where premium buyers are underpaying.

QBTS risk-neutral vs real-world probabilities

The probabilities derived from option prices reflect the market's risk-adjusted view, not the realized statistical distribution. Risk-neutral probabilities include the equity risk premium and skew preferences priced into options, so they tend to overstate tail probability and understate upside drift relative to actually-realized outcomes. QBTS's put-skewed 25-delta surface (-0.054) means downside risk-neutral probabilities are higher than upside - the empirical bias is well-documented. For probability-of-touch calculations and assignment-risk modeling, risk-neutral is the right benchmark. For position-sizing your own conviction, blend with realized-volatility-based statistics from the HV columns.

Trading the QBTS distribution

Probability-driven strategies aim to capture mispricings between the implied distribution and your own probability assessment. Premium-selling structures (credit spreads, iron condors, cash-secured puts) profit when the implied distribution overprices tail probability relative to realized; premium-buying (debit spreads, long calls/puts, long straddles) profits in the reverse. Always pair probability-driven strategy selection with a stop loss or wing-defined risk - the implied distribution is a snapshot, and regime shifts can invalidate it intraday.

Learn how risk-neutral density is reported and how to read the data →

Frequently asked QBTS probability analysis questions

What is the QBTS 30-day expected price range?: As of May 29, 2026, with QBTS at $29.79 and ATM IV at 113.5%, the implied 30-day one-standard-deviation range is approximately ±$9.69, or about $20.10 to $39.48.
What does QBTS risk-neutral density tell us?: Risk-neutral density is the probability distribution of future QBTS price implied by listed option prices. Extracted via Breeden-Litzenberger (twice-differentiating the call price function with respect to strike), it represents the pricing kernel rather than the real-world probability of outcomes. Persistent skew or fat-tail features in the density reflect how the market is pricing tail risk.
How does QBTS ATM IV translate to a probability range?: ATM IV is annualized; multiplying by sqrt(t/365) scales it to the chosen tenor. Under lognormal assumptions, the resulting standard deviation defines the ±1σ band that contains roughly 68% of outcomes, ±2σ for 95%. Empirical equity returns have fatter tails than log-normal, so the implied tail probabilities under-state realized tail frequency in stressed regimes.