[vc_row][vc_column][vc_column_text]Tintri, Inc. provides an enterprise cloud platform to organizations and cloud service providers. The Company’s enterprise cloud platform combines cloud management software, Web services and a range of all-flash storage systems. Its enterprise cloud platform is based on its Tintri CONNECT Web services architecture, which is designed to work like public cloud architecture using Web services. Its Tintri enterprise cloud platform consists of its Tintri CONNECT architecture, Tintri software and Tintri storage systems. The Company’s Tintri CONNECT is a software architecture for virtualized and cloud applications. Its Tintri software includes Tintri OS, Tintri Global Center, VM Scale-out, Tintri Analytics, ReplicateVM and SyncVM. Its Tintri VMstore T5000 all-flash systems provide all-flash capacity in a two rack unit form factor. The Company also offers two bundles of its storage systems for cloud use cases.

Check out our last patent-backed bankruptcy report: Integrated Healing Technologies LLC

Patent-Backed Bankruptcy Report Archive[/vc_column_text][/vc_column][/vc_row][vc_row][vc_column][vc_empty_space][vc_tta_tabs][vc_tta_section title=”Company Info” tab_id=”1485966886423-b3803678-c7ec5ac5-4518fd03-b29a”][vc_column_text]

 

Address

303 Ravendale
Mountain View, CA 94043
United States

www.tintri.com

Ownership

Public

Industry

Computer Processing

[/vc_column_text][/vc_tta_section][vc_tta_section title=”Patent-Backed Value Estimation ” tab_id=”1485966886486-c8105d58-76bb5ac5-4518fd03-b29a”][vc_column_text]Integrated Healing Technologies Debt-Asset Leverage Estimate

Chapter Type Case Number Assets Liabilities Industry/Description
11 18-11625 $76,247,000 $167,957,000 Computer Processing
Portfolio Valuation Range Asset Valuation Range Total Assets Valuation Range Liability Range Leverage Ratio Range
 $475K – $3,24M  $38.1M – $76,2M  $38.6M – $79.5M  $83.9M – $125.9M  0.306 – 0.946


Patent Portfolio

35 Total Assets
• 15 Granted U.S. Patents
• 10 U.S. Applications
• 10 EP Assets

[/vc_column_text][/vc_tta_section][vc_tta_section title=”Featured Assets” tab_id=”1485967825251-b275f45c-d8b55ac5-4518fd03-b29a”][vc_column_text]TinTri Inc. Portfolio Summary

  1. US9569131Avoiding long access latencies in redundant storage systemsAvoiding long access latencies in redundant storage systems is disclosed, including: determining a first device associated with a request is in a slow access period; and reconstructing data associated with the request from one or more other devices comprising a redundant storage system in which the first device and the one or more other devices are included.1. A method of providing access to data, comprising:
    dynamically determining a timeout duration associated with a request associated with a first device;
    sending the request to the first device;
    determining that a response to the request is not received from the first device prior to an end of the timeout duration associated with the request; and
    in response to the determination that the response to the request is not received from the first device prior to the end of the timeout duration associated with the request, reconstructing data associated with the request from one or more other devices comprising a redundant storage system in which the first device and the one or more other devices are included.
  2. US9256474Automatically aligning virtual blocks to physical blocksAutomatically aligning virtual blocks of partitions to blocks of underlying physical storage is disclosed. In some embodiments, a starting offset of a partition included in a logical container is detected. In some embodiments, a misalignment correction amount for a partition included in a logical container is detected. In some embodiments, a misalignment associated with a partition included in a logical container is corrected.1. A system, comprising:
    a processor configured to:
    extract data written to a logical container; and
    determine a starting offset for a partition associated with the logical container based at least in part on a misalignment correction amount associated with a previous partition and on the extracted data; and
    a memory coupled to the processor and configured to store the starting offset.
  3. US8463825Hybrid file system for virtual machine storageA data storage system is disclosed, including: a first storage device of a first storage device type, a second storage device of a second storage device type, and a processor configured to implement a hybrid file system configured to store each of a plurality of data values in at least a corresponding primary location, which for a given data value may be in either the first storage device or the second storage device; wherein the hybrid file system is configured to use a first access approach optimized based on a first access attribute of the first storage device type to interact with the first storage device and a second access approach optimized based on a second access attribute of the second storage device type to interact with the second storage device. Reading data is disclosed, including: determining that a storage location on a first tier storage from which a requested data was written back to a second tier storage has not been reclaimed by a garbage collection associated with the first tier storage, and retrieving the data from the storage location on the first tier storage.1. A data storage system, comprising:
    a first storage device of a first storage device type;
    a second storage device of a second storage device type; and
    a processor configured to implement a hybrid file system configured to store each of a plurality of data values in at least a corresponding primary location, which for a given data value may be in at least one of the first storage device or the second storage device;
    wherein the hybrid file system is configured to use a first access approach optimized based on a first access attribute of the first storage device type to interact with the first storage device and a second access approach optimized based on a second access attribute of the second storage device type to interact with the second storage device, wherein data comprising a set of one or more blocks of a first size associated with the first storage device is configured to be written back to the second storage device, wherein the set of one or more blocks of the first size associated with the first storage device to be written back corresponds to a second size of a block associated with the second storage device.

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