Streaming
This section contains settings related to resource streaming.本节包含与资源流有关的设置。
Streaming Settings流媒体设置| First Frames Force | 通过控制台访问: render_streaming_first_frames_force (API控制) |
|---|---|
| Max Threads | maximum number of threads used for streaming. Higher number of threads results in faster streaming, but may cause spikes in case of excessive consumption of GPU resources. 数值范围: [1, 256]. 默认值为 : 1. 通过控制台访问: render_streaming_max_threads (API控制) |
| Particles Memory Limit | cache memory limit for vertices of particle systems, in percentage of the total GPU memory. 注意 Setting a too low limit for a huge number of particle systems in the scene may lead to rendering only some of them.数值范围: [0, 100]. 默认值为 : 3. 通过控制台访问: render_streaming_particles_memory_limit (API控制) |
Preload at World Loading#
| Shaders | 通过控制台访问: render_shaders_preload (API控制) |
|---|
BudgetsBudgets#
| Loading | time limit for loading graphics resources, in milliseconds per frame. Increasing the limit leads to increasing the streaming performance. However, memory consumption also increases due to a decrease in the resource loading speed. 数值范围: [0.0f, inf]. 默认值为 : 1.0f. 通过控制台访问: render_streaming_budget_loading (API控制) |
|---|---|
| Textures Destroy | time limit for deleting textures, in milliseconds per frame. The Engine will distribute the textures cleanup process by the required number frames in order to not exceed the time limit. The number of frames will also depend on the amount of content in the scene and the computing capacity. Increasing the limit leads to increasing the streaming performance. However, memory consumption also increases due to a decrease in the texture unloading speed. 数值范围: [0.0f, inf]. 默认值为 : 0.1f. 通过控制台访问: render_streaming_budget_destroy_textures (API控制) |
| Meshes Destroy | time limit for deleting meshes, in milliseconds per frame. The Engine will distribute the meshes cleanup process by the required number frames in order to not exceed the time limit. The number of frames will also depend on the amount of content in the scene and the computing capacity. Increasing the limit leads to increasing the streaming performance. However, memory consumption also increases due to a decrease in the mesh unloading speed. 数值范围: [0.0f, inf]. 默认值为 : 0.1f. 通过控制台访问: render_streaming_budget_destroy_meshes (API控制) |
注意The graphic resources are regularly checked for being modified in order to be reloaded or deleted.定期检查图形资源是否被修改,以便重新加载或删除。
The graphic resources are regularly checked for being modified in order to be reloaded or deleted.定期检查图形资源是否被修改,以便重新加载或删除。TexturesTextures#
| Streaming Mode | streaming mode for textures. The following modes are available:
通过控制台访问: render_streaming_textures_mode (API控制) |
|---|---|
| Cache Resolution | 通过控制台访问: render_streaming_textures_cache_resolution (API控制) |
| Memory Limit | cache memory limit used for textures streaming. This is a recommended value to aim for. So, it can be exceeded if textures are required to render the current frame. The memory limit is associated with the lifetime: textures are deleted from video memory only when both values are exceeded. 数值范围: [0, 100]. 默认值为 : 65. 通过控制台访问: render_streaming_textures_memory_limit (API控制) |
| Life Time | lifetime of GPU cache used for textures rendering. The engine deletes textures after this time only if the specified memory limit for textures streaming is also exceeded. 数值范围: [1, 60]. 默认值为 : 4. 通过控制台访问: render_streaming_textures_life_time (API控制) |
Meshes GPUMeshes GPU#
| Streaming Mode | streaming mode for loading meshes to video memory (VRAM). The following modes are available:
通过控制台访问: render_streaming_meshes_mode_vram (API控制) |
|---|---|
| Memory Limit | memory limit used for loading meshes to video memory (VRAM). This is a recommended value to aim for. So, it can be exceeded if meshes are required to render the current frame. The memory limit is associated with the lifetime: meshes are deleted from VRAM only when both values are exceeded. 数值范围: [0, 100]. 默认值为 : 4. 通过控制台访问: render_streaming_meshes_limit_vram (API控制) |
| Life Time | lifetime of meshes in video memory since the last time they were accessed. The engine deletes meshes after this time only if the specified VRAM limit is also exceeded. 数值范围: [0, 60]. 默认值为 : 4. 通过控制台访问: render_streaming_meshes_life_time_vram (API控制) |
Meshes CPUMeshes CPU#
| Streaming Mode | streaming mode for loading meshes to memory (RAM). The following modes are available:
通过控制台访问: render_streaming_meshes_mode_ram (API控制) |
|---|---|
| Memory Limit | memory limit used for loading meshes to memory (RAM). This is a recommended value to aim for. So, it can be exceeded if meshes are required for the current frame. The memory limit is associated with the lifetime: meshes are deleted from RAM only when both values are exceeded. 数值范围: [1, 100]. 默认值为 : 5. 通过控制台访问: render_streaming_meshes_limit_ram (API控制) |
| Life Time | lifetime of meshes in memory since the last time they were accessed. The engine deletes meshes after this time only if the RAM limit is also exceeded. 数值范围: [1, 60]. 默认值为 : 20. 通过控制台访问: render_streaming_meshes_life_time_ram (API控制) |
Prefetch CPUPrefetch CPU#
| Collision Mode | mode of asynchronous pre-loading of meshes to memory before they are used. Pre-loading is available only for meshes, which have at least one surface with the Collision flag set. There are 3 modes of loading such meshes to RAM:
通过控制台访问: render_streaming_meshes_prefetch_collision (API控制) |
|---|---|
| Intersection Mode | mode of asynchronous pre-loading of meshes into memory before they are used. Pre-loading is available only for meshes, which have at least one surface with the Intersection flag set. There are 3 modes of loading such meshes to RAM:
通过控制台访问: render_streaming_meshes_prefetch_intersection (API控制) |
| Radius | radius within which meshes are pre-loaded into memory. The value should exceed the physics radius (for collisions) and/or the radius within which intersections are calculated. 数值范围: [0.0f, inf]. 默认值为 : 0.0f. 通过控制台访问: render_streaming_meshes_prefetch_radius (API控制) |
For OpenGL OnlyFor OpenGL Only#
The settings below are available for OpenGL API only.以下设置仅适用于OpenGL API。
注意These parameters should be carefully adjusted for each particular case and configuration as they are heavily dependent on hardware and driver used.这些参数应针对每种特定情况和配置进行仔细调整,因为它们很大程度上取决于所使用的硬件和驱动程序。
These parameters should be carefully adjusted for each particular case and configuration as they are heavily dependent on hardware and driver used.这些参数应针对每种特定情况和配置进行仔细调整,因为它们很大程度上取决于所使用的硬件和驱动程序。| Async Buffer |
注意
Be aware, that the size of this intermediate buffer will be added to total memory consumption.请注意,此中间缓冲区的大小将添加到总内存消耗中。 |
|---|---|
| Async Buffer Indices |
注意
Be aware, that the size of this intermediate buffer will be added to total memory consumption.请注意,此中间缓冲区的大小将添加到总内存消耗中。 |
| Async Buffer Synchronization |
注意
Sometimes (depending on the hardware/driver used, e.g. when the main thread is affected by sychronization primitives in other threads) memory allocation may be faster than synchronizations, in such cases, when streaming becomes unacceptably slow, it is recommended to disable buffer synchronization.有时(取决于所使用的硬件/驱动程序,例如,当主线程受到其他线程中的同步原语影响时),内存分配可能比同步要快,在这种情况下,当流变得令人无法接受的慢时,建议禁用缓冲区同步。 |
最新更新:
2024-04-19
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