Prompt: Montreal Biosphere. he building originally formed an enclosed structure of steel and acrylic cells, 76 metres (249 ft) in diameter and 62 metres (203 ft) high. It is a Class 1 (icosahedral, as differentiated from Class 2 domes, which are dodecahedral, and Class 3 ones, which are tetrahedral), 32-frequency, double-layer dome, in which the inner and outer layers are connected by a latticework of struts. (There has occasionally been confusion in mistakenly referring to this as a 16-frequency dome due to the fact that there are 15 hexagonal polygons from each pentagonally polygonal vertex of this icosahedral polyhedron to the adjacent vertex. However, the standard for measuring dome frequency is the number of triangles from vertex to vertex. Since there are two triangles from one side to the opposite side of a hexagon, there are actually 30 triangles from the edge of each pentagonal vertex in this dome to the next, plus the triangle that comprises one-fifth of the pentagonal vertex at each end of the length from one vertex to the adjacent vertex: totaling 32 triangles from the center of each vertex to the center of the next vertex.).
Prompt: Montreal Biosphere. he building originally formed an enclosed structure of steel and acrylic cells, 76 metres (249 ft) in diameter and 62 metres (203 ft) high. It is a Class 1 (icosahedral, as differentiated from Class 2 domes, which are dodecahedral, and Class 3 ones, which are tetrahedral), 32-frequency, double-layer dome, in which the inner and outer layers are connected by a latticework of struts. (There has occasionally been confusion in mistakenly referring to this as a 16-frequency dome due to the fact that there are 15 hexagonal polygons from each pentagonally polygonal vertex of this icosahedral polyhedron to the adjacent vertex. However, the standard for measuring dome frequency is the number of triangles from vertex to vertex. Since there are two triangles from one side to the opposite side of a hexagon, there are actually 30 triangles from the edge of each pentagonal vertex in this dome to the next, plus the triangle that comprises one-fifth of the pentagonal vertex at each end of the length from one vertex to the adjacent vertex: totaling 32 triangles from the center of each vertex to the center of the next vertex.).
Would you like to report this Dream as inappropriate?
Prompt:
Montreal Biosphere. he building originally formed an enclosed structure of steel and acrylic cells, 76 metres (249 ft) in diameter and 62 metres (203 ft) high. It is a Class 1 (icosahedral, as differentiated from Class 2 domes, which are dodecahedral, and Class 3 ones, which are tetrahedral), 32-frequency, double-layer dome, in which the inner and outer layers are connected by a latticework of struts. (There has occasionally been confusion in mistakenly referring to this as a 16-frequency dome due to the fact that there are 15 hexagonal polygons from each pentagonally polygonal vertex of this icosahedral polyhedron to the adjacent vertex. However, the standard for measuring dome frequency is the number of triangles from vertex to vertex. Since there are two triangles from one side to the opposite side of a hexagon, there are actually 30 triangles from the edge of each pentagonal vertex in this dome to the next, plus the triangle that comprises one-fifth of the pentagonal vertex at each end of the length from one vertex to the adjacent vertex: totaling 32 triangles from the center of each vertex to the center of the next vertex.).
Modifiers:
elegant
extremely detailed
intricate
oil on canvas
photorealistic
beautiful
high detail
dynamic lighting
hyperrealistic
high definition
crisp quality
coherent
serene
graceful
4k HDR
Dream Level: is increased each time when you "Go Deeper" into the dream. Each new level is harder to achieve and
takes more iterations than the one before.
Rare Deep Dream: is any dream which went deeper than level 6.
Deep Dream
You cannot go deeper into someone else's dream. You must create your own.
Deep Dream
Currently going deeper is available only for Deep Dreams.
Artist
