Methods and systems for acquiring sensor data on a device using multiple acquisition modes

What is claimed is: 1. A method performed by a device having an application processor configured to function based on an operating system and a co-processor configured to receive data from a plurality of sensors of the device, the method comprising: receiving, by the co-processor and from the application processor, a request for sensor data, wherein: the request identifies at least two sensors of the plurality of sensors for which data is requested, the at least two sensors are configured to acquire data using a plurality of acquisition modes, and the request further identifies, for the at least two sensors, respective acquisition modes for acquiring data, the respective acquisition modes selected from among the plurality of acquisition modes; in response to receiving the request, causing, by the co-processor, the at least two sensors to acquire data in the respective acquisition modes; receiving, by the co-processor, first sensor data from a first sensor of the at least two sensors and second sensor data from a second sensor of the at least two sensors; and providing, by the co-processor, the first sensor data and the second sensor data to the application processor. 2. The method of claim 1 , wherein the first sensor data and the second sensor data are provided to the application processor within a single data structure. 3. The method of claim 1 , wherein the first sensor data and the second sensor data are provided to the application processor within a single image. 4. The method of claim 1 , wherein the plurality of acquisition modes comprise a free-running mode in which sensor data is captured independently of a time clock of the co-processor at a predetermined frequency and a triggered mode in which sensor data is captured at one or more predetermined times that are synchronized with the time clock of the co-processor. 5. The method of claim 4 , wherein the identified acquisition mode for the first sensor is the free-running mode and the identified acquisition mode for the second sensor is the triggered mode. 6. The method of claim 5 , wherein the first sensor comprises a first camera and the second sensor comprises a second camera. 7. The method of claim 5 , wherein the second sensor comprises a camera and the first sensor comprises a sensor selected from the group consisting of: an inertial measurement unit, an accelerometer, a gyroscope, a barometer, a magnetometer, and a temperature sensor. 8. The method of claim 1 , further comprising causing the first sensor to switch acquisition modes in response to receiving a subsequent request for sensor data from the application processor, wherein the subsequent request identifies a new acquisition mode selected from among the plurality of acquisition modes. 9. The method of claim 1 , wherein the first sensor data comprises multiple intervals of data and the second sensor data comprises multiple intervals of data, and the method further comprises: determining, by the co-processor, timestamps associated with the multiple intervals of the first sensor data and timestamps associated with the multiple intervals of the second sensor data; and associating, by the co-processor and together within a single data structure, at least one interval of the multiple intervals of the first sensor data and at least one interval of the multiple intervals of the second sensor data based on the determined timestamps. 10. The method of claim 9 , wherein the request further identifies a global positioning system (GPS) time, and the method further comprises configuring, by the co-processor, a time clock of the co-processor based on the GPS time. 11. A non-transitory computer readable memory configured to store instructions that, when executed by a device having an application processor configured to function based on an operating system and a co-processor configured to receive data from a plurality of sensors of the device, cause the device to perform functions comprising: receiving a request for sensor data, wherein: the request identifies at least two sensors of the plurality of sensors for which data is requested, the at least two sensors are configured to acquire data using a plurality of acquisition modes, and the request further identifies, for the at least two sensors, respective acquisition modes for acquiring data, the respective acquisition modes selected from among the plurality of acquisition modes; in response to receiving the request, causing, by the co-processor, the at least two sensors to acquire data in the respective acquisition modes; and receiving, by the application processor, first sensor data acquired using a first sensor of the at least two sensors and second sensor data acquired using a second sensor of the at least two sensors. 12. The non-transitory computer readable memory of claim 11 , wherein the functions further comprise: receiving, by the co-processor, the first sensor data and the second sensor data; and providing, by the co-processor, the first sensor data and the second sensor data to the application processor within a single data structure. 13. The non-transitory computer readable memory of claim 12 , wherein the first sensor data comprises multiple intervals of data and the second sensor data comprises multiple intervals of data, and wherein the functions further comprise: determining, by the co-processor, timestamps associated with the multiple intervals of the first sensor data and timestamps associated with the multiple intervals of the second sensor data; and associating, by the co-processor and together within the single data structure, at least one interval of the multiple intervals of the first sensor data and at least one interval of the multiple intervals of the second sensor data based on the determined timestamps. 14. The non-transitory computer readable memory of claim 11 , wherein the functions further comprise: determining, by the co-processor, one or more timestamps associated with the first sensor data and one or more time stamps associated with the second sensor data; and providing, by the co-processor and to the application processor, the one or more timestamps associated with the first sensor data and the one or more timestamps associated with the second sensor data. 15. The non-transitory computer readable memory of claim 11 , wherein the plurality of acquisition modes comprise a free-running mode in which sensor data is captured independently of a time clock of the co-processor at a predetermined frequency and a triggered mode in which sensor data is captured at one or more predetermined times that are synchronized with the time clock of the co-processor. 16. The non-transitory computer readable memory of claim 15 , wherein the functions further comprise causing the first sensor to switch acquisition modes in response to receiving a subsequent request for sensor data from the application processor, wherein the subsequent request identifies a new acquisition mode selected from among the plurality of acquisition modes. 17. A device comprising: an application processor configured to function based on an operating system; at least two sensors, wherein the at least two sensors are configured to acquire data using a plurality of acquisition modes; and a co-processor configured to receive data from the at least two sensors, and wherein the co-processor is configured to perform functions comprising: receiving, from the application processor, a request for sensor data, wherein the request identifies, for the at least two sensors, respective acquisition modes for acquiring dat