Calcul Dps Of An Attack Pokemon Go

Use this premium Pokemon Go DPS calculator to estimate how hard an attack hits and how much damage it delivers per second. Enter the move power, attack duration, attacker and defender stats, then apply STAB, weather, type effectiveness, and shadow bonuses for a practical raid-style DPS estimate.

Formula used: Damage = floor(0.5 × Power × Attack/Defense × Multipliers) + 1, then DPS = Damage / Seconds

Expert Guide to Calcul DPS of an Attack in Pokemon Go

When players search for calcul dps of an attack pokemon go, they usually want one practical answer: how much damage does a move really deliver over time? In Pokemon Go, raw power alone never tells the whole story. A move with high listed power can still underperform if it has a long animation, poor type matchup, or no Same Type Attack Bonus. By contrast, a move with modest power can become elite when the timing is fast, the attacker has a strong Attack stat, and several battle multipliers stack together.

This is why DPS, or damage per second, matters so much. DPS translates a move into real combat pressure. Raid attackers, gym attackers, and even certain PvP evaluations often start with one core question: how much damage can this attack output per second under realistic conditions? The calculator above is built around that logic. Instead of looking only at move power, it combines move power, duration, attacker Attack, defender Defense, and optional bonuses such as STAB, weather boost, type effectiveness, and the Shadow attack modifier.

Understanding this calculation gives you a huge advantage. It helps you compare two charge moves on the same Pokemon, estimate whether a weather-boosted team is worth building, and decide whether a super effective move with lower power can outperform a neutral move with higher power. In other words, DPS is one of the clearest ways to turn Pokemon Go battle data into strategic decisions.

What DPS Means in Pokemon Go

DPS stands for damage per second. It is a rate, not just a total. If one move deals 100 damage in 2 seconds, its DPS is 50. If another move deals 120 damage in 4 seconds, its DPS is only 30. Even though the second move hits harder in one use, the first move applies pressure much faster. That distinction is essential in raid battles, where maximizing damage before the timer ends is often the difference between success and failure.

In Pokemon Go, estimating DPS usually requires two stages:

1. Estimate the move’s actual damage after battle modifiers.
2. Divide that damage by the move duration in seconds.

The calculator on this page follows the familiar raid-style damage framework:

Damage = floor(0.5 × Power × Attack ÷ Defense × STAB × Weather × Effectiveness × Shadow) + 1
DPS = Damage ÷ (Duration in milliseconds ÷ 1000)

This formula is a practical approximation for understanding offensive performance. It is especially useful for move comparison, attacker ranking, and quick scenario testing.

Why Move Power Alone Is Not Enough

Many trainers make the mistake of judging moves only by listed power. That misses several major factors. A 100-power attack is not automatically better than a 90-power attack. The faster move may cycle more quickly, gain better effective DPS, and produce stronger raid output over a full battle. In addition, the attacking Pokemon’s Attack stat and the defending target’s Defense stat directly alter the final damage.

Suppose you are comparing two attacks:

• Move A: 90 power, 1.9 seconds
• Move B: 110 power, 3.3 seconds

Move B looks stronger at first glance. But once you divide by the move duration, Move A can easily provide better DPS. The lesson is simple: in Pokemon Go, battle efficiency comes from the combination of power, timing, and multipliers, not from one stat alone.

The Most Important Multipliers in a DPS Calculation

When you calculate DPS for an attack in Pokemon Go, the most common multipliers are these:

• STAB: Same Type Attack Bonus applies when the move type matches one of the user’s types.
• Weather boost: Certain move types gain a bonus during matching in-game weather.
• Type effectiveness: Super effective hits increase damage, while resisted hits reduce it.
• Shadow bonus: Shadow Pokemon gain an offensive boost that can significantly improve DPS.

These values are powerful because they multiply with one another. If you combine STAB with weather and a super effective matchup, the resulting DPS can rise dramatically. This is why specialized raid counters are so effective: they are not just strong individually, they stack the correct bonuses at the same time.

Multiplier Type	Common Value	Battle Meaning	Impact on Damage
STAB	1.20x	Move matches one of the attacker’s types	20% more damage before flooring
Weather Boost	1.20x	Current weather boosts that move type	20% more damage before flooring
Neutral	1.00x	No type advantage or resistance	Baseline damage
Super Effective	1.60x	Target is weak to the move type	60% more damage
Double Super Effective	2.56x	Target has two weaknesses to the move type	156% more damage
Resisted	0.625x	Target resists the move type	37.5% less damage
Double Resisted	0.391x	Target doubly resists the move type	About 60.9% less damage
Shadow Attack Bonus	1.20x	Attacker is a Shadow Pokemon	20% more damage

How to Use the Calculator Correctly

To get a strong estimate, follow a consistent process:

1. Enter the move’s listed power.
2. Enter the move duration in milliseconds.
3. Set the attacker’s Attack stat.
4. Set the defender’s Defense stat.
5. Choose whether STAB applies.
6. Choose whether weather boost applies.
7. Select the type matchup multiplier.
8. Choose whether the attacker is Shadow boosted.

After clicking the calculate button, you will see an estimated damage value and a DPS value. The chart then shows how your move’s DPS changes across different effectiveness tiers, from double resisted to double super effective. This visual comparison is useful because it quickly demonstrates the impact of type advantage on offensive output.

Worked Example: A Practical Raid Scenario

Let’s say you are evaluating a 90-power move with a 1900 ms duration. Your attacker has 250 Attack, the raid boss has 180 Defense, and the move benefits from STAB. Weather is neutral, the type matchup is neutral, and the attacker is not Shadow boosted.

The estimated damage becomes:

Damage = floor(0.5 × 90 × 250 ÷ 180 × 1.2 × 1.0 × 1.0 × 1.0) + 1

Damage = floor(75) + 1 = 76

Then DPS is:

DPS = 76 ÷ 1.9 = 40.00

Now imagine the exact same move is super effective and weather boosted. The output rises sharply because the multipliers stack. That is why the best raid teams are tailored for specific bosses instead of using only one all-purpose attacker.

Sample Scenario	Damage Formula Inputs	Estimated Damage	Move Time	Estimated DPS
Neutral with STAB	Power 90, Atk 250, Def 180, STAB 1.2, Neutral 1.0	76	1.9 s	40.00
Super Effective with STAB	Power 90, Atk 250, Def 180, STAB 1.2, Effectiveness 1.6	121	1.9 s	63.68
Weather + Super Effective + STAB	Power 90, Atk 250, Def 180, STAB 1.2, Weather 1.2, Effectiveness 1.6	145	1.9 s	76.32
Shadow + Weather + Super Effective + STAB	Power 90, Atk 250, Def 180, STAB 1.2, Weather 1.2, Effectiveness 1.6, Shadow 1.2	174	1.9 s	91.58

How Attack and Defense Stats Change Results

The Attack and Defense entries in the calculator are not cosmetic. They are core parts of the equation. Raising the attacker’s Attack increases the damage result proportionally, while raising the defender’s Defense reduces it. This is why some Pokemon with amazing moves still fail to become top-tier attackers. If their Attack stat is too low, they cannot fully exploit the move’s potential. Likewise, bulky raid bosses can suppress damage enough that only highly optimized counters feel efficient.

In simple terms:

• Higher Attack pushes damage up.
• Higher Defense pushes damage down.
• Multipliers such as STAB and type advantage amplify those base stat interactions.

That is one reason why elite raid lineups rely on both strong species and strong movesets. Move quality matters, but stats still define the ceiling.

Why Type Effectiveness Usually Beats Raw Neutral Damage

If you only remember one strategic lesson from this guide, let it be this: type advantage is often more important than raw neutral power. A super effective attacker with a slightly weaker move can outperform a neutral attacker using a bigger listed power move. This is especially true when STAB and weather also align.

For practical team building, that means:

• Build specialized counters for common raid bosses.
• Prioritize strong same-type move combinations.
• Watch in-game weather before starting difficult raids.
• Use Shadow attackers when survivability is acceptable.

A neutral attacker may still be useful when your roster is limited, but optimal DPS nearly always comes from exploiting weaknesses.

Limits of a Simple DPS Calculator

Even a strong calculator should be used with context. Pokemon Go battles include more than one move, and real performance can be affected by energy gain, fainting, relobby time, dodge behavior, and total damage output over a full battle cycle. For example, a charge move may have impressive single-use DPS, but if its paired fast move generates energy slowly, the full moveset can feel worse in practice.

So this page’s tool is best used as a focused move DPS estimator. It is excellent for comparing attacks, testing battle modifiers, and seeing how the same move changes under different conditions. For complete raid optimization, you would also evaluate:

1. Fast move DPS and energy generation
2. Charge move energy cost
3. Total damage output before fainting
4. Boss moveset pressure and survivability
5. Team size and time remaining

Best Practices for Trainers Who Want Better Raid Damage

If your goal is to improve your raid and gym performance, here are the habits that matter most:

• Learn your best move combinations rather than relying on auto-select teams.
• Use DPS estimates to compare two charge moves on the same attacker.
• Account for STAB every time you judge whether a move is worth teaching.
• Never ignore weather when planning important raid sessions.
• Choose type advantage first, then compare stats and move timings.
• Use charts and scenario testing to understand how sensitive a move is to matchup changes.

The biggest improvement usually comes from stacking small advantages correctly. STAB alone helps. Weather alone helps. A Shadow bonus helps. But when all three combine with a super effective matchup, your DPS can jump from merely good to genuinely elite.

Helpful Reference Sources

While Pokemon Go battle systems are game-specific, the ideas behind DPS are grounded in broader concepts like rates, measurement, and environmental conditions. For deeper background on those ideas, these authoritative resources are useful:

• National Institute of Standards and Technology
• UCAR Center for Science Education on Weather
• National Weather Service

Final Takeaway

If you want a reliable answer to the question of calcul dps of an attack pokemon go, the most effective approach is to combine move power, animation time, Attack and Defense stats, and all major battle multipliers. That is exactly what the calculator above is designed to do. It gives you a clearer picture than raw move power ever could, and it helps you make smarter decisions about raids, counters, and move selection.

In Pokemon Go, the strongest attack is not always the one with the biggest printed number. The strongest attack is the one that converts stats, bonuses, and timing into the best real battle output. Use DPS to measure that output, and your team building will immediately become more precise.