Sample Report — this is what your report will look like

atuundRoom Acoustic Profile

Sample Listening Room

12 ft × 17 ft × 8 ft
Area: 204 ft²Volume: 1632 ft³

Typical Placement

C

8.3 dB

Optimized

B

4.8 dB

Key Findings

Your medium-sized rectangular room (12 ft × 17 ft × 8 ft) produces 27 resonant modes below 200 Hz. Energy concentrates in 4 problem bands — 63 Hz and 160 Hz are the strongest, where multiple axial and tangential modes stack up. Optimized placement reduces bass variation from 8.3 dB to 4.8 dB — a clearly audible improvement from grade C to B.

Room Proportions

1.00:1.50:2.12
(height : width : depth)
Within Bolt AreaDimensions fall within the Bolt area — modes distribute evenly
Bonello: PassMode count per 1/3-octave band should increase with frequency
1
1
1
2
3
4
4
5
6
202531.540506380100125160200

Hz (1/3-octave bands)

Room Modes

27 modes below 200 Hz

4 problem bands — frequency ranges where modal energy piles up

111140 Hzmoderate

2 axial + 3 tang. + 1 oblique

89112 Hzmoderate

2 axial + 2 tang. + 2 oblique

143180 Hzstrong

1 axial + 3 tang. + 2 oblique

5671 Hzstrong

2 axial + 1 tang.

Axial10 modes

Between two parallel surfaces — strongest effect

33.246.966.470.493.999.6132.8140.8166.0187.8
Tangential12 modes

Between four surfaces — moderate effect

57.572.181.496.7104.5117.3122.0138.2150.4163.7175.6183.2
Oblique5 modes

Between all six surfaces — weakest individually

91.2107.6126.3149.1174.8

Bass Placement Zones

below 198 Hz

Shows where floor-level bass energy builds up relative to the room average. Red zones will excite room resonances strongly — avoid placing subwoofers or speakers there.

Severe (>+10 dB)High (+6–10 dB)Moderate (+3–6 dB)Low (<+3 dB)

Problem Frequency Bands

200 Hz
16% severe17.1% high9.1% mod
2 axial, tangential
160 Hz
14.2% severe14.2% high10.1% mod
6 axial, tangential, oblique
80 Hz
7.8% severe11.4% high8.2% mod
2 tangential
100 Hz
4.1% severe17.8% high11.9% mod
6 axial, tangential, oblique
50 Hz
24% high16% mod
1 axial
125 Hz
12.3% high19.2% mod
6 axial, tangential, oblique

11% of the floor area is in the low-impact zone for bass placement. This room has limited safe placement options — optimization is especially valuable.

Modal Distribution

25
1
35
1
45
1
55
1
65
2
75
1
85
4
95
2
105
1
115
2
125
2
135
2
145
1
155
2
165
2
175
2
185
195

Modes per 10 Hz bin (20–200 Hz)

Schroeder Frequency

198 Hz
Modal Region
Diffuse Field
20 Hz100 Hz500 Hz

Below 198 Hz, individual room modes dominate your sound. Above it, the sound field becomes diffuse and treatments have more influence.

Reverberation Time

WarmRT60: 0.46s
0.72
125
0.58
250
0.45
500
0.38
1k
0.32
2k
0.28
4k

Frequency (Hz)

Within target Above target Below target

Frequency Response

SBIR Analysis

Speaker-boundary interference creates cancellation notches where reflected sound destructively interferes with direct sound. Closer boundaries create deeper notches. Odd harmonics (3×, 5×, 7×…) also cancel, creating a comb filter.

Left Speaker

Left wall
188 Hz0.0 dB
Front wall
226 Hz0.0 dB
Floor
156 Hz0.0 dB
Ceiling
128 Hz0.0 dB

Right Speaker

Right wall
186 Hz0.0 dB
Front wall
226 Hz0.0 dB
Floor
156 Hz0.0 dB
Ceiling
128 Hz0.0 dB

Subwoofer

Left wall
281 Hz0.0 dB
Ceiling
70 Hz0.0 dB

First Reflections

Sound that bounces off walls before reaching the listener. Reflections arriving within 15ms of direct sound are most critical for treatment.

Critical (<15ms) — 4 reflections

Speaker 1Left wall
3.42 m5.0 ms
Speaker 1Front wall
3.18 m4.3 ms
Speaker 2Right wall
3.42 m5.0 ms
Speaker 2Front wall
3.18 m4.3 ms

Later (≥15ms) — 2 reflections

Speaker 1Back wall
6.85 m15.0 ms
Speaker 2Back wall
6.85 m15.0 ms

Recommended Positions

12 ft × 17 ft × 8 ftRLSUB👤FRONT
🔊

Left speaker

2 ft 6 in from the front wall, 3 ft from the left wall

🔊

Right speaker

2 ft 6 in from the front wall, 3 ft from the right wall

🔈

Subwoofer

1 ft from the front wall, 2 ft from the left wall

🎧

Listening position

8 ft 6 in from the front wall, 6 ft from the left wall

Sweet Spot Analysis

🪑

Medium Sweet Spot

29% degradation within 30cm

Good for a single listener with some head movement. Adjacent seats will notice a difference.

Tips & Recommendations

Good room proportions

Your room dimensions fall within the Bolt area — a range of ratios known to distribute room modes more evenly. This gives the optimizer a strong foundation to work with.

Problem frequency bands

Strong bass energy concentrations at 63 Hz, 160 Hz. Multiple modes pile up in these frequency bands, creating pronounced peaks and nulls. The optimizer targets these bands.

Big improvement from optimization

Optimized placement reduces response variation by 3.5 dB compared to typical positioning. That's an audible difference — worth the effort to measure and place carefully.

Bass-heavy reverb

Low frequencies ring much longer than highs. This is common — hard walls absorb treble but not bass. Corner bass traps (thick, floor-to-ceiling) are the most effective fix.

Consider bass traps

Thick corner bass traps (4-6 inches, floor to ceiling) in the front corners can reduce the dominant room modes by 3-6 dB. This complements placement optimization and often pushes a C or D grade to a B.