Against Late Fall Hardwoods, Summit scores 54/100 (), while Deep Cover scores 37/100 ().
Based on color alignment, breakup scale, and texture density, the AI sees an approximate 17-point lean toward Summit in this particular environment.
Skre Summit and Forloh Deep Cover are both mixed-scale patterns, so they behave similarly from a scale point of view. Both patterns balances micro and macro elements, keeping them fairly steady across different shot distances. They are also similar in overall density, so neither one is dramatically busier or more open.
Skre Summit vs Forloh Deep Cover
Skre Summit and Forloh Deep Cover have been analyzed using our CamoMatrix AI engine, which measures scale, density, and edge behavior directly from the flat pattern artwork. Both land in the mixed-scale category, meaning they balance fine texture with larger breakup blocks instead of living at one extreme. Density is similar, so neither pattern overwhelms the eye or leaves too much empty space. Edge style diverges: Skre Summit uses sharper, harder transitions, while Forloh Deep Cover mixes both hard and soft edges. Softer edges often melt better into natural backgrounds, while harder edges can create stronger breakup in certain lighting. Skre Summit's scale index trends a touch higher, making its breakup blocks slightly larger than those in Forloh Deep Cover. Skre Summit runs a little denser on our readings, while Forloh Deep Cover leaves slightly more background showing through — which some hunters prefer in simpler, more open environments. As always, these results come from flat pattern imagery. Real-world performance depends heavily on terrain, season, and how the garments fit and move.
This is a pattern-only comparison from flat artwork. Terrain, season, and real backgrounds will still push one or the other ahead in specific setups.
Learn how the CamoMatrix AI evaluates camouflage patterns
Defines the dominant size of shapes in the pattern.
Indicates which scale range the pattern leans toward overall.
How busy the pattern is with shapes and noise.
How hard or soft shape boundaries are.