OpenGL is (to a certain extend) the most portable rendering API, and you have at-least a chance at staying up to date with current graphics hardware capabilities, though this also regularly creates it's fair share of frustration. If you code for PC, you can use DirectX10/11 which offers more or less the same functionality. DirectX has a bit less driver overhead, while OpenGL is a state machine and hides quite a lot of things from the programmer. I'm not sure how you see doing the same in assembler as any less amount of frustration, unless by 'asm' you mean writing glsl or hlsl shaders :)
I wrote an OpenGL SVO visualizer that currently renders 62.000 voxel cubes at 30 fps on a GTX780, though my setup is not optimal, i.e. it does not yet use instanced rendering or tri-strips or quads, or a geometryshader based approach where you only send in the center coordinate of the box and generate the visual entirely in the shader. OpenGL does offer a whole stack of ways to optimize the rendering, and it's hardware accelerated.
Interop between openGL and openCL is trivial, and CUDA also integrates quite well with openGL buffers. I have both of these setups working in the same code base. The 3rd alternative is to use compute-shaders (opengl 4.3+), so you don't even need openCL nor CUDA for processing your cubes.
Do you plan on sending rays through the svo, or simply render the outlines back-face culled, or doing something extra?