Qualcomm Patent | Methods and apparatus for augmented reality viewer configuration
Patent: Methods and apparatus for augmented reality viewer configuration
Drawings: Click to check drawins
Publication Number: 20210111976
Publication Date: 20210415
Applicant: Qualcomm
Abstract
The present disclosure relates to methods and apparatus for display or graphics processing. Aspects of the present disclosure can determine a communication compatibility of one or more client devices. Further, aspects of the present disclosure can modify a user space or a kernel based on the communication compatibility of each of the one or more client devices. Additionally, aspects of the present disclosure can communicate at least some data with the one or more client devices based on the modified user space or the modified kernel. Aspects of the present disclosure can also modify the kernel based on the communication compatibility of each of the one or more client devices. Aspects of the present disclosure can also extend the kernel based on the communication compatibility.
Claims
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A method of display processing of a host device, comprising: determining a communication compatibility of each of one or more client devices; modifying at least one of a user space or a kernel based on the communication compatibility of each of the one or more client devices; and communicating data with each of the one or more client devices based on at least one of the modified user space or the modified kernel.
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The method of claim 1, further comprising: transmitting, to each of the one or more client devices, a request for the communication compatibility of each of one or more client devices; and receiving, from each of the one or more client devices, an indication of the communication compatibility of each of one or more client devices, wherein the communication compatibility of each of one or more client devices is determined based on the received indication.
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The method of claim 1, further comprising: transmitting, to each of the one or more client devices, an indication for activating at least one sensor at each of the one or more client devices.
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The method of claim 3, further comprising: receiving, from each of the one or more client devices, a data stream based on the activated at least one sensor; and displaying the communicated data based on the received data stream.
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The method of claim 1, further comprising: transmitting, to each of the one or more client devices, a request for one or more storage files.
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The method of claim 5, further comprising: receiving, from each of the one or more client devices, the one or more storage files based on the transmitted request.
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The method of claim 1, wherein the user space is modified to enable communication between the kernel and each of the one or more client devices.
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The method of claim 1, further comprising: identifying at least one of a vender identifier (VID) or a product identifier (PID) of each of the one or more client devices, wherein at least one of the user space or the kernel is modified based on at least one of the VID or the PID of each of the one or more client devices.
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The method of claim 8, wherein at least one of the user space or the kernel is dynamically modified based on the VID or the PID of each of the one or more client devices.
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The method of claim 8, wherein at least one of the user space or the kernel is modified for at least one of a bind process or an unbind process of a kernel space driver.
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The method of claim 1, wherein the kernel is modified based on the communication compatibility of each of the one or more client devices.
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The method of claim 11, wherein the kernel is further modified based on at least one of a flexible inertial measurement unit (IMU) format, a number of IMUs, a driver update, or a software update.
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The method of claim 11, wherein the communication compatibility of each of the one or more client devices corresponds to a kernel compatibility.
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The method of claim 11, wherein modifying the kernel based on the communication compatibility of each of the one or more client devices further comprises extending the kernel based on the communication compatibility of each of the one or more client devices.
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The method of claim 1, wherein the data is at least one of display data, lens data, camera data, or inertial measurement unit (IMU) data.
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The method of claim 15, wherein data is calibrated data, and at least one of the display data, the lens data, the camera data, or the IMU data is stored in a file system or a miniature file system.
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A method of display processing of a client device, comprising: receiving, from a host device, a request for a communication compatibility of the client device; determining a communication compatibility of the client device; transmitting, to the host device, an indication of the communication compatibility of the client device, at least one of a user space or a kernel being modified based on the indication; and communicating data with the host device based on at least one of the modified user space or the modified kernel.
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The method of claim 17, further comprising: receiving, from the host device, an indication for activating at least one sensor at the client device; and activating the at least one sensor based on the received indication.
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The method of claim 18, further comprising: transmitting, to the host device, a data stream based on the activated at least one sensor, wherein the communicated data is displayed based on the transmitted data stream.
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The method of claim 17, further comprising: receiving, from the host device, a request for one or more storage files.
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The method of claim 20, further comprising: transmitting, to the host device, the one or more storage files based on the received request.
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The method of claim 17, wherein the user space is modified to enable communication between the kernel and the client device.
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The method of claim 17, wherein at least one of the user space or the kernel is modified based on at least one of a vender identifier (VID) or a product identifier (PID) of the client device.
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The method of claim 23, wherein at least one of the user space or the kernel is dynamically modified based on the VID or the PID of the client device, wherein at least one of the user space or the kernel is modified for at least one of a bind process or an unbind process of a kernel space driver.
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The method of claim 17, wherein the kernel is modified based on at least one of the communication compatibility of the client device, a flexible inertial measurement unit (IMU) format, a number of IMUs, a driver update, or a software update.
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The method of claim 25, wherein the communication compatibility of the client device corresponds to a kernel compatibility, wherein the kernel is extended based on the communication compatibility of the client device.
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The method of claim 17, wherein the data is at least one of display data, lens data, camera data, or inertial measurement unit (IMU) data.
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The method of claim 27, wherein data is calibrated data, and at least one of the display data, the lens data, the camera data, or the IMU data is stored in a file system or a miniature file system.
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An apparatus for display processing of a host device, comprising: a memory; and at least one processor coupled to the memory and configured to: determine a communication compatibility of each of one or more client devices; modify at least one of a user space or a kernel based on the communication compatibility of each of the one or more client devices; and communicate data with each of the one or more client devices based on at least one of the modified user space or the modified kernel.
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An apparatus for display processing of a client device, comprising: a memory; and at least one processor coupled to the memory and configured to: receive, from a host device, a request for a communication compatibility of the client device; determine a communication compatibility of the client device; transmit, to the host device, an indication of the communication compatibility of the client device, at least one of a user space or a kernel being modified based on the indication; and communicate data with the host device based on at least one of the modified user space or the modified kernel.
Description
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] This application claims the benefit of U.S. Provisional Application Ser. No. 62/915,600, entitled “METHODS AND APPARATUS FOR AUGMENTED REALITY VIEWER CONFIGURATION” and filed on Oct. 15, 2019, which is expressly incorporated by reference herein in its entirety.
TECHNICAL FIELD
[0002] The present disclosure relates generally to processing systems and, more particularly, to one or more techniques for display or graphics processing.
INTRODUCTION
[0003] Computing devices often utilize a graphics processing unit (GPU) to accelerate the rendering of graphical data for display. Such computing devices may include, for example, computer workstations, mobile phones such as so-called smartphones, embedded systems, personal computers, tablet computers, and video game consoles. GPUs execute a graphics processing pipeline that includes one or more processing stages that operate together to execute graphics processing commands and output a frame. A central processing unit (CPU) may control the operation of the GPU by issuing one or more graphics processing commands to the GPU. Modern day CPUs are typically capable of concurrently executing multiple applications, each of which may need to utilize the GPU during execution. A device that provides content for visual presentation on a display generally includes a GPU.
[0004] Typically, a GPU of a device is configured to perform the processes in a graphics processing pipeline. However, with the advent of wireless communication and smaller, handheld devices, there has developed an increased need for improved graphics processing.
SUMMARY
[0005] The following presents a simplified summary of one or more aspects in order to provide a basic understanding of such aspects. This summary is not an extensive overview of all contemplated aspects, and is intended to neither identify key elements of all aspects nor delineate the scope of any or all aspects. Its sole purpose is to present some concepts of one or more aspects in a simplified form as a prelude to the more detailed description that is presented later.
[0006] In an aspect of the disclosure, a method, a computer-readable medium, and an apparatus are provided. The apparatus may be a host device, a server, a client device, a headset or head mounted display (HMD), a display processing unit, a display processor, a central processing unit (CPU), a graphics processing unit (GPU), or any apparatus that can perform display or graphics processing. The apparatus may transmit, to each of the one or more client devices, a request for the communication compatibility of each of one or more client devices. The apparatus may also receive, from each of the one or more client devices, an indication of the communication compatibility of each of one or more client devices, where the communication compatibility of each of one or more client devices is determined based on the received indication. The apparatus may also determine a communication compatibility of each of one or more client devices. Additionally, the apparatus may identify at least one of a vender identifier (VID) or a product identifier (PID) of each of the one or more client devices, where at least one of the user space or the kernel may be modified based on at least one of the VID or the PID of each of the one or more client devices. The apparatus may also modify at least one of a user space or a kernel based on the communication compatibility of each of the one or more client devices. The apparatus may also transmit, to each of the one or more client devices, an indication for activating at least one sensor at each of the one or more client devices. Further, the apparatus may receive, from each of the one or more client devices, a data stream based on the activated at least one sensor; and display the communicated data based on the received data stream. The apparatus may also transmit, to each of the one or more client devices, a request for one or more storage files. The apparatus may also receive, from each of the one or more client devices, the one or more storage files based on the transmitted request. Moreover, the apparatus may communicate data with each of the one or more client devices based on at least one of the modified user space or the modified kernel.
[0007] In another aspect of the disclosure, a method, a computer-readable medium, and an apparatus are provided. The apparatus may be a host device, a server, a client device, a headset or head mounted display (HMD), a display processing unit, a display processor, a central processing unit (CPU), a graphics processing unit (GPU), or any apparatus that can perform display or graphics processing. The apparatus may receive, from a host device, a request for a communication compatibility of the client device. The apparatus may also determine a communication compatibility of the client device. The apparatus may also transmit, to the host device, an indication of the communication compatibility of the client device, at least one of a user space or a kernel being modified based on the indication. The apparatus may also receive, from the host device, an indication for activating at least one sensor at the client device. The apparatus may also activate the at least one sensor based on the received indication. The apparatus may also transmit, to the host device, a data stream based on the activated at least one sensor, where the communicated data is displayed based on the transmitted data stream. The apparatus may also receive, from the host device, a request for one or more storage files. The apparatus may also transmit, to the host device, the one or more storage files based on the received request. The apparatus may also communicate data with the host device based on at least one of the modified user space or the modified kernel.
[0008] The details of one or more examples of the disclosure are set forth in the accompanying drawings and the description below. Other features, objects, and advantages of the disclosure will be apparent from the description and drawings, and from the claims.
BRIEF DESCRIPTION OF DRAWINGS
[0009] FIG. 1 is a block diagram that illustrates an example content generation system in accordance with one or more techniques of this disclosure.
[0010] FIG. 2 illustrates an example GPU in accordance with one or more techniques of this disclosure.
[0011] FIG. 3 illustrates an example diagram of a configuration file in accordance with one or more techniques of this disclosure.
[0012] FIG. 4 illustrates an example diagram of a configuration file in accordance with one or more techniques of this disclosure.
[0013] FIG. 5 illustrates an example diagram of a configuration file in accordance with one or more techniques of this disclosure.
[0014] FIG. 6 illustrates an example diagram of a configuration file in accordance with one or more techniques of this disclosure.
[0015] FIG. 7 illustrates an example diagram of communication between a host device and a client device in accordance with one or more techniques of the present disclosure.
[0016] FIG. 8 illustrates an example flowchart of an example method in accordance with one or more techniques of this disclosure.
[0017] FIG. 9 illustrates an example flowchart of an example method in accordance with one or more techniques of this disclosure.
DETAILED DESCRIPTION
[0018] Virtual reality (VR), augmented reality (AR), and/or extended reality (XR) content may include a compatibility between the host device and the client device, e.g., in order for the devices to function properly. In order for multiple client devices to utilize the same host device, their corresponding kernel compatibilities may be modified. Also, it may be difficult to modify a kernel in order to update or modify the kernel compatibility, e.g., for different client devices or headsets. As such, it may be challenging to modify the kernel compatibility for multiple devices, such that these devices can each utilize the same host device. Some aspects of the present disclosure can update or modify a user space or kernel. By doing so, the present disclosure can enable multiple devices to include the same kernel compatibility and be able to utilize the same host device. In some aspects, the present disclosure can modify a compatibility list in the user space, e.g., in order to enable compatibility at the kernel.
[0019] Various aspects of systems, apparatuses, computer program products, and methods are described more fully hereinafter with reference to the accompanying drawings. This disclosure may, however, be embodied in many different forms and should not be construed as limited to any specific structure or function presented throughout this disclosure. Rather, these aspects are provided so that this disclosure will be thorough and complete, and will fully convey the scope of this disclosure to those skilled in the art. Based on the teachings herein one skilled in the art should appreciate that the scope of this disclosure is intended to cover any aspect of the systems, apparatuses, computer program products, and methods disclosed herein, whether implemented independently of, or combined with, other aspects of the disclosure. For example, an apparatus may be implemented or a method may be practiced using any number of the aspects set forth herein. In addition, the scope of the disclosure is intended to cover such an apparatus or method which is practiced using other structure, functionality, or structure and functionality in addition to or other than the various aspects of the disclosure set forth herein. Any aspect disclosed herein may be embodied by one or more elements of a claim.
[0020] Although various aspects are described herein, many variations and permutations of these aspects fall within the scope of this disclosure. Although some potential benefits and advantages of aspects of this disclosure are mentioned, the scope of this disclosure is not intended to be limited to particular benefits, uses, or objectives. Rather, aspects of this disclosure are intended to be broadly applicable to different wireless technologies, system configurations, networks, and transmission protocols, some of which are illustrated by way of example in the figures and in the following description. The detailed description and drawings are merely illustrative of this disclosure rather than limiting, the scope of this disclosure being defined by the appended claims and equivalents thereof.
[0021] Several aspects are presented with reference to various apparatus and methods. These apparatus and methods are described in the following detailed description and illustrated in the accompanying drawings by various blocks, components, circuits, processes, algorithms, and the like (collectively referred to as “elements”). These elements may be implemented using electronic hardware, computer software, or any combination thereof. Whether such elements are implemented as hardware or software depends upon the particular application and design constraints imposed on the overall system.
[0022] By way of example, an element, or any portion of an element, or any combination of elements may be implemented as a “processing system” that includes one or more processors (which may also be referred to as processing units). Examples of processors include microprocessors, microcontrollers, graphics processing units (GPUs), general purpose GPUs (GPGPUs), central processing units (CPUs), application processors, digital signal processors (DSPs), reduced instruction set computing (RISC) processors, systems-on-chip (SOC), baseband processors, application specific integrated circuits (ASICs), field programmable gate arrays (FPGAs), programmable logic devices (PLDs), state machines, gated logic, discrete hardware circuits, and other suitable hardware configured to perform the various functionality described throughout this disclosure. One or more processors in the processing system may execute software. Software can be construed broadly to mean instructions, instruction sets, code, code segments, program code, programs, subprograms, software components, applications, software applications, software packages, routines, subroutines, objects, executables, threads of execution, procedures, functions, etc., whether referred to as software, firmware, middleware, microcode, hardware description language, or otherwise. The term application may refer to software. As described herein, one or more techniques may refer to an application, i.e., software, being configured to perform one or more functions. In such examples, the application may be stored on a memory, e.g., on-chip memory of a processor, system memory, or any other memory. Hardware described herein, such as a processor may be configured to execute the application. For example, the application may be described as including code that, when executed by the hardware, causes the hardware to perform one or more techniques described herein. As an example, the hardware may access the code from a memory and execute the code accessed from the memory to perform one or more techniques described herein. In some examples, components are identified in this disclosure. In such examples, the components may be hardware, software, or a combination thereof. The components may be separate components or sub-components of a single component.
[0023] Accordingly, in one or more examples described herein, the functions described may be implemented in hardware, software, or any combination thereof. If implemented in software, the functions may be stored on or encoded as one or more instructions or code on a computer-readable medium. Computer-readable media includes computer storage media. Storage media may be any available media that can be accessed by a computer. By way of example, and not limitation, such computer-readable media can comprise a random access memory (RAM), a read-only memory (ROM), an electrically erasable programmable ROM (EEPROM), optical disk storage, magnetic disk storage, other magnetic storage devices, combinations of the aforementioned types of computer-readable media, or any other medium that can be used to store computer executable code in the form of instructions or data structures that can be accessed by a computer.
[0024] In general, this disclosure describes techniques for having a graphics processing pipeline in a single device or multiple devices, improving the rendering of graphical content, and/or reducing the load of a processing unit, i.e., any processing unit configured to perform one or more techniques described herein, such as a GPU. For example, this disclosure describes techniques for graphics processing in any device that utilizes graphics processing. Other example benefits are described throughout this disclosure.
[0025] As used herein, instances of the term “content” may refer to “graphical content,” “image,” and vice versa. This is true regardless of whether the terms are being used as an adjective, noun, or other parts of speech. In some examples, as used herein, the term “graphical content” may refer to a content produced by one or more processes of a graphics processing pipeline. In some examples, as used herein, the term “graphical content” may refer to a content produced by a processing unit configured to perform graphics processing. In some examples, asused herein, the term”graphical content” may refer to a content produced by a graphics processing unit.
[0026] In some examples, as used herein, the term “display content” may refer to content generated by a processing unit configured to perform displaying processing. In some examples, as used herein, the term “display content” may refer to content generated by a display processing unit. Graphical content may be processed to become display content. For example, a graphics processing unit may output graphical content, such as a frame, to a buffer (which may be referred to as a framebuffer). A display processing unit may read the graphical content, such as one or more frames from the buffer, and perform one or more display processing techniques thereon to generate display content. For example, a display processing unit may be configured to perform composition on one or more rendered layers to generate a frame. As another example, a display processing unit may be configured to compose, blend, or otherwise combine two or more layers together into a single frame. A display processing unit may be configured to perform scaling, e.g., upscaling or downscaling, on a frame. In some examples, a frame may refer to a layer. In other examples, a frame may refer to two or more layers that have already been blended together to form the frame, i.e., the frame includes two or more layers, and the frame that includes two or more layers may subsequently be blended.
[0027] FIG. 1 is a block diagram that illustrates an example content generation system 100 configured to implement one or more techniques of this disclosure. The content generation system 100 includes a device 104. The device 104 may include one or more components or circuits for performing various functions described herein. In some examples, one or more components of the device 104 may be components of an SOC. The device 104 may include one or more components configured to perform one or more techniques of this disclosure. In the example shown, the device 104 may include a processing unit 120, a content encoder/decoder 122, and a system memory 124. In some aspects, the device 104 can include a number of optional components, e.g., a communication interface 126, a transceiver 132, a receiver 128, a transmitter 130, a display processor 127, and one or more displays 131. Reference to the display 131 may refer to the one or more displays 131. For example, the display 131 may include a single display or multiple displays. The display 131 may include a first display and a second display. The first display may be a left-eye display and the second display may be a right-eye display. In some examples, the first and second display may receive different frames for presentment thereon. In other examples, the first and second display may receive the same frames for presentment thereon. In further examples, the results of the graphics processing may not be displayed on the device, e.g., the first and second display may not receive any frames for presentment thereon. Instead, the frames or graphics processing results may be transferred to another device. In some aspects, this can be referred to as split-rendering.
[0028] The processing unit 120 may include an internal memory 121. The processing unit 120 may be configured to perform graphics processing, such as in a graphics processing pipeline 107. The content encoder/decoder 122 may include an internal memory 123. In some examples, the device 104 may include a display processor, such as the display processor 127, to perform one or more display processing techniques on one or more frames generated by the processing unit 120 before presentment by the one or more displays 131. The display processor 127 may be configured to perform display processing. For example, the display processor 127 may be configured to perform one or more display processing techniques on one or more frames generated by the processing unit 120. The one or more displays 131 may be configured to display or otherwise present frames processed by the display processor 127. In some examples, the one or more displays 131 may include one or more of: a liquid crystal display (LCD), a plasma display, an organic light emitting diode (OLED) display, a projection display device, an augmented reality display device, a virtual reality display device, a head-mounted display, or any other type of display device.
[0029] Memory external to the processing unit 120 and the content encoder/decoder 122, such as system memory 124, may be accessible to the processing unit 120 and the content encoder/decoder 122. For example, the processing unit 120 and the content encoder/decoder 122 may be configured to read from and/or write to external memory, such as the system memory 124. The processing unit 120 and the content encoder/decoder 122 may be communicatively coupled to the system memory 124 over a bus. In some examples, the processing unit 120 and the content encoder/decoder 122 may be communicatively coupled to each other over the bus or a different connection.
[0030] The content encoder/decoder 122 may be configured to receive graphical content from any source, such as the system memory 124 and/or the communication interface 126. The system memory 124 may be configured to store received encoded or decoded graphical content. The content encoder/decoder 122 may be configured to receive encoded or decoded graphical content, e.g., from the system memory 124 and/or the communication interface 126, in the form of encoded pixel data. The content encoder/decoder 122 may be configured to encode or decode any graphical content.
[0031] The internal memory 121 or the system memory 124 may include one or more volatile or non-volatile memories or storage devices. In some examples, internal memory 121 or the system memory 124 may include RAM, SRAM, DRAM, erasable programmable ROM (EPROM), electrically erasable programmable ROM (EEPROM), flash memory, a magnetic data media or an optical storage media, or any other type of memory.
[0032] The internal memory 121 or the system memory 124 may be a non-transitory storage medium according to some examples. The term “non-transitory” may indicate that the storage medium is not embodied in a carrier wave or a propagated signal. However, the term “non-transitory” should not be interpreted to mean that internal memory 121 or the system memory 124 is non-movable or that its contents are static. As one example, the system memory 124 may be removed from the device 104 and moved to another device. As another example, the system memory 124 may not be removable from the device 104.
[0033] The processing unit 120 may be a central processing unit (CPU), a graphics processing unit (GPU), a general purpose GPU (GPGPU), or any other processing unit that may be configured to perform graphics processing. In some examples, the processing unit 120 may be integrated into a motherboard of the device 104. In some examples, the processing unit 120 may be present on a graphics card that is installed in a port in a motherboard of the device 104, or may be otherwise incorporated within a peripheral device configured to interoperate with the device 104. The processing unit 120 may include one or more processors, such as one or more microprocessors, GPUs, application specific integrated circuits (ASICs), field programmable gate arrays (FPGAs), arithmetic logic units (ALUs), digital signal processors (DSPs), discrete logic, software, hardware, firmware, other equivalent integrated or discrete logic circuitry, or any combinations thereof. If the techniques are implemented partially in software, the processing unit 120 may store instructions for the software in a suitable, non-transitory computer-readable storage medium, e.g., internal memory 121, and may execute the instructions in hardware using one or more processors to perform the techniques of this disclosure. Any of the foregoing, including hardware, software, a combination of hardware and software, etc., may be considered to be one or more processors.
[0034] The content encoder/decoder 122 may be any processing unit configured to perform content decoding. In some examples, the content encoder/decoder 122 may be integrated into a motherboard of the device 104. The content encoder/decoder 122 may include one or more processors, such as one or more microprocessors, application specific integrated circuits (ASICs), field programmable gate arrays (FPGAs), arithmetic logic units (ALUs), digital signal processors (DSPs), video processors, discrete logic, software, hardware, firmware, other equivalent integrated or discrete logic circuitry, or any combinations thereof. If the techniques are implemented partially in software, the content encoder/decoder 122 may store instructions for the software in a suitable, non-transitory computer-readable storage medium, e.g., internal memory 123, and may execute the instructions in hardware using one or more processors to perform the techniques of this disclosure. Any of the foregoing, including hardware, software, a combination of hardware and software, etc., may be considered to be one or more processors.
[0035] In some aspects, the content generation system 100 can include an optional communication interface 126. The communication interface 126 may include a receiver 128 and a transmitter 130. The receiver 128 may be configured to perform any receiving function described herein with respect to the device 104. Additionally, the receiver 128 may be configured to receive information, e.g., eye or head position information, rendering commands, or location information, from another device. The transmitter 130 may be configured to perform any transmitting function described herein with respect to the device 104. For example, the transmitter 130 may be configured to transmit information to another device, which may include a request for content. The receiver 128 and the transmitter 130 may be combined into a transceiver 132. In such examples, the transceiver 132 may be configured to perform any receiving function and/or transmitting function described herein with respect to the device 104.
[0036] Referring again to FIG. 1, in certain aspects, the graphics processing pipeline 107 may include a determination component 198 configured to transmit, to each of the one or more client devices, a request for the communication compatibility of each of one or more client devices. The determination component 198 can also be configured to receive, from each of the one or more client devices, an indication of the communication compatibility of each of one or more client devices, where the communication compatibility of each of one or more client devices is determined based on the received indication. The determination component 198 can also be configured to determine a communication compatibility of each of one or more client devices. The determination component 198 can also be configured to identify at least one of a vender identifier (VID) or a product identifier (PID) of each of the one or more client devices, where atleast one of the user space or the kernel may be modified based on at least one of the VID or the PID of each of the one or more client devices. The determination component 198 can also be configured to modify at least one of a user space or a kernel based on the communication compatibility of each of the one or more client devices. The determination component 198 can also be configured to transmit, to each of the one or more client devices, an indication for activating at least one sensor at each of the one or more client devices. The determination component 198 can also be configured to receive, from each of the one or more client devices, a data streambased on the activated at least one sensor; and display the communicated data based on the received data stream. The determination component 198 can also be configured to transmit, to each of the one or more client devices, a request for one or more storage files. The determination component 198 can also be configured to receive, from each of the one or more client devices, the one or more storage files based on the transmitted request. The determination component 198 can also be configured to communicate data with each of the one or more client devices based on at least one of the modified user space or the modified kernel.
[0037] In another aspect of the disclosure, the determination component 198 can also be configured to receive, from a host device, a request for a communication compatibility of the client device. The determination component 198 can also be configured to determine a communication compatibility of the client device. The determination component 198 can also be configured to transmit, to the host device, an indication of the communication compatibility of the client device, at least one of a user space or a kernel being modified based on the indication. The determination component 198 can also be configured to receive, from the host device, an indication for activating at least one sensor at the client device. The determination component 198 can also be configured to activate the at least one sensor based on the received indication. The determination component 198 can also be configured to transmit, to the host device, a data stream based on the activated at least one sensor, where the communicated data is displayed based on the transmitted data stream. The determination component 198 can also be configured to receive, from the host device, a request for one or more storage files. The determination component 198 can also be configured to transmit, to the host device, the one or more storage files based on the received request. The determination component 198 can also be configured to communicate data with the host device based on at least one of the modified user space or the modified kernel.
[0038] As described herein, a device, such as the device 104, may refer to any device, apparatus, or system configured to perform one or more techniques described herein. For example, a device may be a server, a base station, user equipment, a client device, a station, an access point, a computer, e.g., a personal computer, a desktop computer, a laptop computer, a tablet computer, a computer workstation, or a mainframe computer, an end product, an apparatus, a phone, a smart phone, a server, a video game platform or console, a handheld device, e.g., a portable video game device or a personal digital assistant (PDA), a wearable computing device, e.g., a smart watch, an augmented reality device, or a virtual reality device, a non-wearable device, a display or display device, a television, a television set-top box, an intermediate network device, a digital media player, a video streaming device, a content streaming device, an in-car computer, any mobile device, any device configured to generate graphical content, or any device configured to perform one or more techniques described herein. Processes herein may be described as performed by a particular component (e.g., a GPU), but, in further embodiments, can be performed using other components (e.g., a CPU), consistent with disclosed embodiments.
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