Institution
Salesforce.com
About: Salesforce.com is a based out in . It is known for research contribution in the topics: User interface & Object (computer science). The organization has 2418 authors who have published 2775 publications receiving 63956 citations.
Topics: User interface, Object (computer science), Metadata, Cloud computing, Set (abstract data type)
Papers published on a yearly basis
Papers
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16 Dec 2010TL;DR: In this paper, the authors describe methods, devices and systems for providing a user interface in an on-demand software service environment, which involve parsing the source code to create the component definition and transmitting an intermediate representation of the requested component to the client device.
Abstract: Methods, devices and systems for providing a user interface in an on-demand software service environment are described. Some implementations involve receiving a component request from a first client device, locating class-level definition source code for a component definition corresponding to the component request, identifying the component definition within the source code, determining a language of the component definition and selecting a parser according to the language of the component definition. Such implementations may also involve parsing the source code to create the component definition and transmitting an intermediate representation of the requested component to the client device. The intermediate representation may allow the client device to create an instance of the requested component.
60 citations
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01 Nov 2010TL;DR: In this paper, the authors provided mechanisms and methods for determining a risk score for an entity, which can enable more effective monitoring of a system, can create more relevant data associated with the entity, etc.
Abstract: In accordance with embodiments, there are provided mechanisms and methods for determining a risk score for an entity. These mechanisms and methods for determining a risk score for an entity can enable more effective monitoring of a system, can create more relevant data associated with the entity, etc.
59 citations
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19 Apr 2011TL;DR: In this article, a method for transparent object migration across storage tiers is presented. But the method is based on a CustomEntityOption bit that determines (at object creation time) where the object is stored, either in the relational or non-relational data store portion.
Abstract: In accordance with embodiments, there are provided mechanisms and methods for performing transparent object migration across storage tiers. In an embodiment and by way of example, a method for appending data to large data volumes is provided. The method embodiment includes a) setting a CustomEntityOption bit that determines (at object creation time) where the object is stored, either in the relational or the non-relational data store portion, b) loading the CustomEntityOption bit in a cached CustomEntityDefinition, c) showing the CustomEntityOption bit as EntityInfo, and d) allowing custom object definition and Metadata API functionality when the bit is shown.
59 citations
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09 Aug 2011TL;DR: In this article, a key splitting process securely stores a master key used to encrypt tenant-level encryption keys, a key versioning process is used to securely track updated encryption keys and a key rotation process was used to rotate encrypted data to an updated version of a tenant level encryption key.
Abstract: Various techniques and procedures related to encryption key versioning and rotation in a multi-tenant environment are presented here. One approach employs a computer-implemented method of managing encrypted data and their associated encryption keys. In accordance with this approach, a key splitting process securely stores a master key used to encrypt tenant-level encryption keys, a key versioning process is used to securely track updated encryption keys, and a key rotation process is used to rotate encrypted data to an updated version of a tenant-level encryption key.
59 citations
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12 Jan 2012TL;DR: In this paper, a computer-implemented method of performance testing functionality of a cloud-based application during development of the cloudbased application is presented, where the method obtains a defined use case from a plurality of use cases to be supported by the cloud based application, and executes an automated performance test on the defined use cases prior to completion of development.
Abstract: Provided here is a computer-implemented method of performance testing functionality of a cloud-based application during development of the cloud-based application. The method obtains a defined use case from a plurality of use cases to be supported by the cloud-based application, and executed an automated performance test on the defined use case prior to completion of development of the cloud-based application. The method continues by generating an output that summarizes the performance test results. The steps of obtaining, executing, and generating can be repeated for a plurality of additional defined use cases as needed.
59 citations
Authors
Showing all 2418 results
Name | H-index | Papers | Citations |
---|---|---|---|
Philip S. Yu | 148 | 1914 | 107374 |
Michael R. Lyu | 89 | 696 | 33257 |
Silvio Savarese | 89 | 386 | 35975 |
Jiashi Feng | 77 | 426 | 21521 |
Richard Socher | 77 | 274 | 97703 |
Haibin Ling | 72 | 383 | 20858 |
Dragomir R. Radev | 69 | 288 | 20131 |
Irwin King | 67 | 476 | 19056 |
Steven C. H. Hoi | 66 | 375 | 15935 |
Xiaodan Liang | 61 | 318 | 14121 |
Caiming Xiong | 60 | 336 | 18037 |
Min-Yen Kan | 52 | 253 | 10207 |
Justin Yifu Lin | 48 | 302 | 13491 |
Hannaneh Hajishirzi | 42 | 181 | 7802 |
Larry S. Davis | 40 | 105 | 6960 |