What’s New in Maxwell V3.2? – Juan Cañada, Head of Maxwell Render Technologies

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Hello everyone!

I’m very happy to announce the imminent arrival of yet another feature-filled, free update for Maxwell V3!

V3.2 has just been uploaded to our Early Builds Area, so licensed users can go ahead and try the beta version. In this post I’m going to run through some of the main new features and improvements, so that you know what you should be looking out for! So, let’s take a look…

More speed – Subsurface Scattering

Improvements here are remarkable! This scene was rendered with V3.1.0 on the left, and the new V3.2 on the right. Both were rendered for the same time, up to sampling level 12. Check out the difference in noise clean up (click on the images and look at the ear).

Subsurface Scattering_1

Subsurface Scattering_2

 

 

 

 

 

 

Nested Dielectrics

This is a major improvement, especially for anyone rendering fluids – dielectrics inside dielectrics render much better now in Maxwell V3.2, as you can see clearly in the example below: Before (on the left) and after with V3.2 (on the right):

dielectrics_1

dielectrics_2

 

 

 

 

 

 

Just to explain briefly how this is done – there is a new material parameter called “Nested Priority”. By default all materials will have the same priority (0, which is the maximum), but when adjusted, Maxwell will prioritize the one with the lower number over the rest – useful when you have an overlapping of dielectrics/SSS materials. With this method it is possible to render complex water/glass/ice surface without numerical issues, by simply adding a small overlap between geometries. In the liquid inside a glass example, the liquid is modeled slightly larger, invading the glass body. The priority is then set to 0 for the glass, and 1 for the liquid (or any value higher than that used for the glass). This way, the overlapping volume with be filled with just glass, the liquid wall will be removed, and the remaining walls will then render appropriately as either glass or liquid, depending on the ray direction.

This improvement will be especially useful to Maxwell and RealFlow combined workflow users and anyone rendering fluids.

Here’s another example below, and you can read more about this new feature in our Support Center here:

nested dialectrics_ bottle1

Here comes Virtual Reality: Stereo Lenses

Lat-Long Stereo left-right loop

We have implemented two new lens types in V3.2: Lat/Long (image above) and Stereo Fish Lens (image below). These lenses are stereo lenses, which means that the user can choose if they render the left or the right eye and can set the intraocular distance. They are geared up for camera travelling in virtual reality (VR) systems such as Oculus. We hope that our archviz users affected by the VR revolution will find these new lenses useful and exciting!

Fish Stereo left-right loop

Developers beware: API Extension

It is now possible for third party developers to develop their own procedural geometries, geometry modifiers, procedural textures, camera lens, etc. Many of the latest improvements in Maxwell (volumetrics, hair, grass, particle rendering, etc) use this API internally. The possibilities are endless! This API extension is included with the main package and is free for both personal and commercial use.

PSD Output Support

PSD_Export

Maxwell V3.2 can now save the render in PSD format in 8, 16 and 32 bits. It supports multi-layered PSD’s, so channels and light buffers (when Multilight is enabled) can be embedded as separated passes. Simple!

Procedural Emitters

Glowing_Rat

As you probably know, the way Maxwell that produces light involves an emitting material being applied to an actual triangle mesh. Now it’s possible to apply emitter materials to entities that are not triangle meshes – such as hair and fur, particles, grass.

Separated Reflection & Refraction channels

In V3.2 we have made it possible to render many more channel combinations – such as “Diffuse”, “Reflections”, “Diffuse + Reflections”, “Refractions”, “Reflections+Refractions”. These 6 available options make it possible to apply denoisier algorithms to specific passes. Rendering the diffuse and reflective components separately allows for greater flexibility when compositing.

We hope that you will find this helpful when rendering glass for example. Less noise in glass buildings for our architect users! 🙂

Lampara cuenco_ Render passes_ TODAS LAS IMAGENES apaisado

Maxwell Scatter: Improved

We have added a new “remove overlapped” option to avoid collisions between instances generated by the scatter algorithm. In your scene you might want to distribute trees over your garden randomly, but you do not want these to intersect in a way that would not happen in real life. Now you can automatically avoid this!

There is also a new “uniform scaling” option to avoid undesired deforming when scaling scattered instances.

overlapped scattering

New “Reflectance” Channel

This new channel shows plain colors without the influence of global illumination. It is very useful for achieving “self illuminated textures” when used in combination with custom alpha channels.

Render on the left and Reflectance channel on the right – notice there aren’t any shadows or highlights!Tazas Reflectance Channel montada

Maxwell Grass – World-Y growth

Grass grow 002 ed

This new percentage allows you to define the overall growth direction of your grass blades towards the world-Y axis (sky direction). This follows the natural phototropism in plants, where no matter the ground surface angle, they will grow towards the direction of the World-Y. The rest of the angle parameters can be applied after this main growing parameter; so the Initial Angle will mean a deviation from this main growing direction, as well as the Initial Angle Variation.

Capture_Grass

Improvements in Multilight editor

In V3.2 it is now is possible to select and edit multiple emitters at the same time and there is a new “Sort by name/type/intensity” function.

New “Asset Reference” extension

This new extension allows you to work with references of many different file formats, in the same way Maxwell works with referenced MXS’s – so these geometries are not pre-converted to MXS files but Maxwell now works with them directly, and they are loaded in render time.

Some of the supported formats include OBJ, FBX, Blender, Alembic, DAE, STL, LXO, 3DS, LWO, 3D, etc.

Maxwell Render V3.2 will be a free update for all V3 users, we hope you enjoy the new features and improvements. I’ll leave you with a list of additional bug fixes!

Thanks to all Maxwell users for your feedback and for making Maxwell what it is.

Juan

BUGS FIXED

The new “nested dielectrics” feature also fixes artifacts with dielectrics/SSS objects that intersect.
Fixed artifacts rendering intersecting volumetrics
Error messaging improved, specially with licensing errors.
Fixed issues in opaque material type when using textures
Color space management of input textures improved
Fixed “hidden from reflections and refractions” was not working properly with coatings.
Fixed instances of hidden reference were not visible unless they were translated
Fixed issue with scaled instances of procedural geometries not showing up in the render
Extra Sampling:
Fixed Extra Sampling with render region was not stopping at the desired sampling level
Better support for missing paths for bitmap masks
Fixed custom alpha channels in referenced MXS
Fixed other minor bugs
Fixed potential crash in procedural displacement
Fix potential crash when using EXR in OSX
Fixed hang when using deep channel at very high resolutions
Fixed crash when opening/resuming corrupted MXI files
Fixed issue in texture interpolation
On the fly displacement improved.

NETWORK

The new network system (tp_network) is much more stable now. Many features of the old network system have been added.
Better support for Extra Sampling in cooperative renders

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