Abstract: An object storage system includes mass storage devices that implement general storage for objects stored in the object storage system and additionally includes other storage devices, such as solid-state drives, that provide higher performance storage access. The object storage system implements a common access interface for accessing both accelerated access objects (who are eligible to have cached copies stored on the higher performance storage devices) and non-accelerated access objects stored in the general storage. The cache is fully managed by the service and no changes are required for client applications to receive accelerated access to objects that are classified as accelerated access objects per a customer configurable acceleration policy for the object or for a bucket in which the object is stored.

Abstract: An object compression system of a storage service may provide a user-friendly and cost-efficient solution to manage stored objects for users of the storage service. The object compression system may automatically monitor individual objects in an object-based storage system of the storage service. Based on one or more characteristics and additional features of the objects, the object compression system may generate respective determinations whether to compress the individual objects. Responsive to determinations to compress the objects, the object compression system may determine compression algorithms for individual objects. The object compression system may compress the objects according to respective compression algorithms to create compressed files. The object compression system may store the compressed files in a tier different from the objects and delete the objects from the storage service.

Abstract: One variation of a method for controlling a dynamic transaction card includes: at a first time, accessing a first cryptogram; at a second time, establishing a wireless connection with a mobile computing device; in response to establishing the wireless connection with the mobile computing device, accessing a first token associated with the first cryptogram from the mobile computing device via the wireless connection; generating a first magnetic stripe sequence command representing the first cryptogram and the first token; and in response to detecting a magnetic stripe card reader proximal a magnetic stripe emulator integrated into the dynamic transaction card at a third time succeeding the second time, driving the magnetic stripe emulator according to the first magnetic stripe sequence command.

Abstract: One variation of a method for controlling a dynamic transaction card includes: at a first time, accessing a first cryptogram; at a second time, establishing a wireless connection with a mobile computing device; in response to establishing the wireless connection with the mobile computing device, accessing a first token associated with the first cryptogram from the mobile computing device via the wireless connection; generating a first magnetic stripe sequence command representing the first cryptogram and the first token; and in response to detecting a magnetic stripe card reader proximal a magnetic stripe emulator integrated into the dynamic transaction card at a third time succeeding the second time, driving the magnetic stripe emulator according to the first magnetic stripe sequence command.

Abstract: One variation of a method for controlling a dynamic transaction card includes: at a first time, accessing a first cryptogram; at a second time, establishing a wireless connection with a mobile computing device; in response to establishing the wireless connection with the mobile computing device, accessing a first token associated with the first cryptogram from the mobile computing device via the wireless connection; generating a first magnetic stripe sequence command representing the first cryptogram and the first token; and in response to detecting a magnetic stripe card reader proximal a magnetic stripe emulator integrated into the dynamic transaction card at a third time succeeding the second time, driving the magnetic stripe emulator according to the first magnetic stripe sequence command.

Abstract: One variation of a method for controlling a dynamic transaction card includes: at a first time, accessing a first cryptogram; at a second time, establishing a wireless connection with a mobile computing device; in response to establishing the wireless connection with the mobile computing device, accessing a first token associated with the first cryptogram from the mobile computing device via the wireless connection; generating a first magnetic stripe sequence command representing the first cryptogram and the first token; and in response to detecting a magnetic stripe card reader proximal a magnetic stripe emulator integrated into the dynamic transaction card at a third time succeeding the second time, driving the magnetic stripe emulator according to the first magnetic stripe sequence command.

Abstract: One variation of a method for controlling a dynamic transaction card includes: at a first time, accessing a first cryptogram; at a second time, establishing a wireless connection with a mobile computing device; in response to establishing the wireless connection with the mobile computing device, accessing a first token associated with the first cryptogram from the mobile computing device via the wireless connection; generating a first magnetic stripe sequence command representing the first cryptogram and the first token; and in response to detecting a magnetic stripe card reader proximal a magnetic stripe emulator integrated into the dynamic transaction card at a third time succeeding the second time, driving the magnetic stripe emulator according to the first magnetic stripe sequence command.

Abstract: One variation of a method for controlling a dynamic transaction card includes: at a first time, accessing a first cryptogram; at a second time, establishing a wireless connection with a mobile computing device; in response to establishing the wireless connection with the mobile computing device, accessing a first token associated with the first cryptogram from the mobile computing device via the wireless connection; generating a first magnetic stripe sequence command representing the first cryptogram and the first token; and in response to detecting a magnetic stripe card reader proximal a magnetic stripe emulator integrated into the dynamic transaction card at a third time succeeding the second time, driving the magnetic stripe emulator according to the first magnetic stripe sequence command.

Abstract: One variation of a method for remotely controlling a payment card in real-time through a computing device includes: at the computing device, establishing a wireless connection with a payment card; over the wireless connection, receiving a first identifier of a first magnetic stripe card corresponding to a first magnetic stripe sequence command stored on the payment card; in response to receiving the first identifier of the first magnetic stripe card, rendering a first notification on a display of the computing device, the first notification indicating the first magnetic stripe card; and in response to receiving a selection for the first notification rendered on the display of the computing device, transmitting an instruction to the payment card, over the wireless connection, to emulate the first magnetic stripe card according to the first magnetic stripe sequence command during an upcoming transaction.

Abstract: One variation of a method for controlling a dynamic transaction card includes: at a first time, accessing a first cryptogram; at a second time, establishing a wireless connection with a mobile computing device; in response to establishing the wireless connection with the mobile computing device, accessing a first token associated with the first cryptogram from the mobile computing device via the wireless connection; generating a first magnetic stripe sequence command representing the first cryptogram and the first token; and in response to detecting a magnetic stripe card reader proximal a magnetic stripe emulator integrated into the dynamic transaction card at a third time succeeding the second time, driving the magnetic stripe emulator according to the first magnetic stripe sequence command.

Abstract: One variation of a method for facilitating payment with a payment card includes: in response to an input on the surface of the payment card exceeding a first input threshold magnitude, transitioning from the off state into a primary payment mode; in the primary payment mode, activating a first timer of a first duration; in response to expiration of the first timer prior to a magnetic read head proximal the payment card, transitioning from the primary payment mode into a sleep state; in response to an input on the surface of the payment card exceeding a second input threshold in the sleep state, transitioning into a secondary payment mode; in the secondary payment mode, activating a second timer of a second duration less than the first duration; and driving a magnetic stripe emulator within the payment card according to a magnetic sequence command corresponding to a magnetic stripe card.

Abstract: One variation of a method for facilitating payment with a payment card includes: in response to an input on the surface of the payment card exceeding a first input threshold magnitude, transitioning from the off state into a primary payment mode; in the primary payment mode, activating a first timer of a first duration; in response to expiration of the first timer prior to a magnetic read head proximal the payment card, transitioning from the primary payment mode into a sleep state; in response to an input on the surface of the payment card exceeding a second input threshold in the sleep state, transitioning into a secondary payment mode; in the secondary payment mode, activating a second timer of a second duration less than the first duration; and driving a magnetic stripe emulator within the payment card according to a magnetic sequence command corresponding to a magnetic stripe card.

Abstract: One variation of a method for facilitating payment with a payment card includes: in response to an input on the surface of the payment card exceeding a first input threshold magnitude, transitioning from the off state into a primary payment mode; in the primary payment mode, activating a first timer of a first duration; in response to expiration of the first timer prior to a magnetic read head proximal the payment card, transitioning from the primary payment mode into a sleep state; in response to an input on the surface of the payment card exceeding a second input threshold in the sleep state, transitioning into a secondary payment mode; in the secondary payment mode, activating a second timer of a second duration less than the first duration; and driving a magnetic stripe emulator within the payment card according to a magnetic sequence command corresponding to a magnetic stripe card.

Abstract: One variation of a method for remotely controlling a payment card in real-time through a computing device includes: at the computing device, establishing a wireless connection with a payment card; over the wireless connection, receiving a first identifier of a first magnetic stripe card corresponding to a first magnetic stripe sequence command stored on the payment card; in response to receiving the first identifier of the first magnetic stripe card, rendering a first notification on a display of the computing device, the first notification indicating the first magnetic stripe card; and in response to receiving a selection for the first notification rendered on the display of the computing device, transmitting an instruction to the payment card, over the wireless connection, to emulate the first magnetic stripe card according to the first magnetic stripe sequence command during an upcoming transaction.