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AXUS 4U 24 Bahías YB-24S3EPE PCIe
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External PCIe Attached Raid subsystem takes high performance advantage of PCI Express link with 1000MB/s data throughput (250MB/s per lane & 4 lane simultaneously )connecting simply between memory and Raid set via DMA (Direct Memory Access) schema to reduce CPU resource overhead. A new polynomial RAID 6 tolerates two disk fail at the same time enhancing Data reliability. Combining Raid subsystem and PCI Express card solves compatible issue on cross-platform with various drivers support and breaks limitation of narrow space in server machine by up to 128 HDDs capacity with SAS JBOD scalability, which is suitable and cost-effective solution for such as content creation, multi-stream video editing, multi-media on demand, all required high performance, scalability and data reliability applications
Advanced Key Feature:
Simple
The design is simple by PCI Express to host, SAS/SATA2 to disk. Compare to traditional I/O process such as SCSI. Fibre…PCIe Raid simplifies data transmission protocol directly from Memory to HD via DMA scheme to reduce CPU overhead and conversion time and maximum throughput rate. Simple brings low cost ownership and high performance.
Reliable
Raid 6 is an essential extension of Raid 5 with second parity scheme to enhance data availability. In the past experience, IT guys are very afraid when one HD rebuilding under Raid 5 level, the second HD failure detected, which causes the whole Raid set crash and lost all data. That’s why Raid 6 is design two HDs fail tolerance and makes data more reliable without reduce performance.
Scalable
Unlike internal PCIe Raid only supports few HDDs in narrow space of sever machine and worry about high temperature might affect server machine performance. External PCIe Raid breaks space limitation providing 24 Bay external Raid subsystem and SAS expender port can be attached JBOD. Each PCIe Raid supports up 128 TB capacities.
Cross-platformable
YOTTA PCIe provides various drivers for Windows 2000/ XP/ Server 2003/ Vista, Redhat/SuSE Linux, FreeBSD, Solaris 10x86/x86_64, SCO UnixWare 7.1.4, Novell Netware 6.5, “Mac OS 10x”. Especially for Mac User, hardware compatible issue will be no longer headache. Easily install the driver and enjoy extreme performance for any kind editing application.
Performance Achievable
Uncompressed SD 10bit 30-ftps(27MB/s), Uncompressed HD 24-ftps 1080p 10bit(127MB/s), Uncompressed HD 1080i RGB 4:4:4(250MB/s). Stop to wait your data stuck on performance limitation. That’s why AXUS guarantee 800+MB/s performance by PCIe external Raid for you to run any critical performance requirement application.
Performance Chart
Enhance Features:
Convenient Modular Designs
RAID controller, cooling fans, disk drives, and power supplies are modular designs and interchangeable within series. They can be easily hot swapped to eliminate the down time of the RAID services.
Multiple RAID Selection
A Volume Set is seen by the host system as a single logical device and is organized in a RAID level with one or more physical disks. Each Raid set can contain multiple volume set with different Raid level and configuration.
Instant Availability/Background Initialization
The operating system can instantly access to the newly created arrays without requiring a reboot or waiting for the initialization to be completed.
Array Roaming
The configuration settings of a RAID will be restored in both NVRAM and the disk drives, providing the maximum protection in case of a disk drive or controller failure. Array roaming allows the administrators to move a complete raid set to another system without losing RAID configuration and data on that raid set. Online Capacity Expansion
Online Capacity Expansion makes it possible to add one or more physical drive to a volume set while the server is in operation, eliminating the need to store and restore after reconfiguring the raid set.
Online RAID Level and Stripe Size Migration
Both the RAID level and stripe size of an existing volume set can be migrated while the server is online and the volume set is in use. The feature makes the RAID configuration change easier during performance tuning or adding extra physical disks.
SNMP
SNMP-based management application (also known as a SNMP manager) can monitor the disk array. An example of An SNMP management application is Hewlett-Packard’s Open View. The firmware-embedded SNMP agent can be used to augment the RAID controller if you are already running an SNMP management application at your site.
S.M.A.R.T
Self-Monitoring Analysis and Reporting Technology is an “early warning system” that the disk manufacturers incorporate logic into their drives. AXUS S.M.A.R.T. function detects and reports status of hard drives thus enriches the data availability.
Easy Management
Users can easily configure or maintain the RAID via the RS232 port, LCD control panel, or Web browser-based manager. RAID array configuration, system hardware monitoring, error alert can be all done at your finger tips. |
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AXUS 3U 16 Bahías YB-16S3EPE PCIe
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Precio:
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External PCIe Attached Raid subsystem takes high performance advantage of PCI Express link with 1000MB/s data throughput (250MB/s per lane & 4 lane simultaneously )connecting simply between memory and Raid set via DMA (Direct Memory Access) schema to reduce CPU resource overhead. A new polynomial RAID 6 tolerates two disk fail at the same time enhancing Data reliability. Combining Raid subsystem and PCI Express card solves compatible issue on cross-platform with various drivers support and breaks limitation of narrow space in server machine by up to 128 HDDs capacity with SAS JBOD scalability, which is suitable and cost-effective solution for such as content creation, multi-stream video editing, multi-media on demand, all required high performance, scalability and data reliability applications
Advanced Key Feature:
Simple
The design is simple by PCI Express to host, SAS/SATA2 to disk. Compare to traditional I/O process such as SCSI. Fibre…PCIe Raid simplifies data transmission protocol directly from Memory to HD via DMA scheme to reduce CPU overhead and conversion time and maximum throughput rate. Simple brings low cost ownership and high performance.
Reliable
Raid 6 is an essential extension of Raid 5 with second parity scheme to enhance data availability. In the past experience, IT guys are very afraid when one HD rebuilding under Raid 5 level, the second HD failure detected, which causes the whole Raid set crash and lost all data. That’s why Raid 6 is design two HDs fail tolerance and makes data more reliable without reduce performance.
Scalable
Unlike internal PCIe Raid only supports few HDDs in narrow space of sever machine and worry about high temperature might affect server machine performance. External PCIe Raid breaks space limitation providing 24 Bay external Raid subsystem and SAS expender port can be attached JBOD. Each PCIe Raid supports up 128 TB capacities.
Cross-platformable
YOTTA PCIe provides various drivers for Windows 2000/ XP/ Server 2003/ Vista, Redhat/SuSE Linux, FreeBSD, Solaris 10x86/x86_64, SCO UnixWare 7.1.4, Novell Netware 6.5, “Mac OS 10x”. Especially for Mac User, hardware compatible issue will be no longer headache. Easily install the driver and enjoy extreme performance for any kind editing application.
Performance Achievable
Uncompressed SD 10bit 30-ftps(27MB/s), Uncompressed HD 24-ftps 1080p 10bit(127MB/s), Uncompressed HD 1080i RGB 4:4:4(250MB/s). Stop to wait your data stuck on performance limitation. That’s why AXUS guarantee 800+MB/s performance by PCIe external Raid for you to run any critical performance requirement application.
Performance Chart
Enhance Features:
Convenient Modular Designs
RAID controller, cooling fans, disk drives, and power supplies are modular designs and interchangeable within series. They can be easily hot swapped to eliminate the down time of the RAID services.
Multiple RAID Selection
A Volume Set is seen by the host system as a single logical device and is organized in a RAID level with one or more physical disks. Each Raid set can contain multiple volume set with different Raid level and configuration.
Instant Availability/Background Initialization
The operating system can instantly access to the newly created arrays without requiring a reboot or waiting for the initialization to be completed.
Array Roaming
The configuration settings of a RAID will be restored in both NVRAM and the disk drives, providing the maximum protection in case of a disk drive or controller failure. Array roaming allows the administrators to move a complete raid set to another system without losing RAID configuration and data on that raid set. Online Capacity Expansion
Online Capacity Expansion makes it possible to add one or more physical drive to a volume set while the server is in operation, eliminating the need to store and restore after reconfiguring the raid set.
Online RAID Level and Stripe Size Migration
Both the RAID level and stripe size of an existing volume set can be migrated while the server is online and the volume set is in use. The feature makes the RAID configuration change easier during performance tuning or adding extra physical disks.
SNMP
SNMP-based management application (also known as a SNMP manager) can monitor the disk array. An example of An SNMP management application is Hewlett-Packard’s Open View. The firmware-embedded SNMP agent can be used to augment the RAID controller if you are already running an SNMP management application at your site.
S.M.A.R.T
Self-Monitoring Analysis and Reporting Technology is an “early warning system” that the disk manufacturers incorporate logic into their drives. AXUS S.M.A.R.T. function detects and reports status of hard drives thus enriches the data availability.
Easy Management
Users can easily configure or maintain the RAID via the RS232 port, LCD control panel, or Web browser-based manager. RAID array configuration, system hardware monitoring, error alert can be all done at your finger tips. |
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AXUS 2U 12 Bahías YB-12S3EPE PCIe
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Precio:
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External PCIe Attached Raid subsystem takes high performance advantage of PCI Express link with 1000MB/s data throughput (250MB/s per lane & 4 lane simultaneously )connecting simply between memory and Raid set via DMA (Direct Memory Access) schema to reduce CPU resource overhead. A new polynomial RAID 6 tolerates two disk fail at the same time enhancing Data reliability. Combining Raid subsystem and PCI Express card solves compatible issue on cross-platform with various drivers support and breaks limitation of narrow space in server machine by up to 128 HDDs capacity with SAS JBOD scalability, which is suitable and cost-effective solution for such as content creation, multi-stream video editing, multi-media on demand, all required high performance, scalability and data reliability applications
Advanced Key Feature:
Simple
The design is simple by PCI Express to host, SAS/SATA2 to disk. Compare to traditional I/O process such as SCSI. Fibre…PCIe Raid simplifies data transmission protocol directly from Memory to HD via DMA scheme to reduce CPU overhead and conversion time and maximum throughput rate. Simple brings low cost ownership and high performance.
Reliable
Raid 6 is an essential extension of Raid 5 with second parity scheme to enhance data availability. In the past experience, IT guys are very afraid when one HD rebuilding under Raid 5 level, the second HD failure detected, which causes the whole Raid set crash and lost all data. That’s why Raid 6 is design two HDs fail tolerance and makes data more reliable without reduce performance.
Scalable
Unlike internal PCIe Raid only supports few HDDs in narrow space of sever machine and worry about high temperature might affect server machine performance. External PCIe Raid breaks space limitation providing 24 Bay external Raid subsystem and SAS expender port can be attached JBOD. Each PCIe Raid supports up 128 TB capacities.
Cross-platformable
YOTTA PCIe provides various drivers for Windows 2000/ XP/ Server 2003/ Vista, Redhat/SuSE Linux, FreeBSD, Solaris 10x86/x86_64, SCO UnixWare 7.1.4, Novell Netware 6.5, “Mac OS 10x”. Especially for Mac User, hardware compatible issue will be no longer headache. Easily install the driver and enjoy extreme performance for any kind editing application.
Performance Achievable
Uncompressed SD 10bit 30-ftps(27MB/s), Uncompressed HD 24-ftps 1080p 10bit(127MB/s), Uncompressed HD 1080i RGB 4:4:4(250MB/s). Stop to wait your data stuck on performance limitation. That’s why AXUS guarantee 800+MB/s performance by PCIe external Raid for you to run any critical performance requirement application.
Performance Chart
Enhance Features:
Convenient Modular Designs
RAID controller, cooling fans, disk drives, and power supplies are modular designs and interchangeable within series. They can be easily hot swapped to eliminate the down time of the RAID services.
Multiple RAID Selection
A Volume Set is seen by the host system as a single logical device and is organized in a RAID level with one or more physical disks. Each Raid set can contain multiple volume set with different Raid level and configuration.
Instant Availability/Background Initialization
The operating system can instantly access to the newly created arrays without requiring a reboot or waiting for the initialization to be completed.
Array Roaming
The configuration settings of a RAID will be restored in both NVRAM and the disk drives, providing the maximum protection in case of a disk drive or controller failure. Array roaming allows the administrators to move a complete raid set to another system without losing RAID configuration and data on that raid set. Online Capacity Expansion
Online Capacity Expansion makes it possible to add one or more physical drive to a volume set while the server is in operation, eliminating the need to store and restore after reconfiguring the raid set.
Online RAID Level and Stripe Size Migration
Both the RAID level and stripe size of an existing volume set can be migrated while the server is online and the volume set is in use. The feature makes the RAID configuration change easier during performance tuning or adding extra physical disks.
SNMP
SNMP-based management application (also known as a SNMP manager) can monitor the disk array. An example of An SNMP management application is Hewlett-Packard’s Open View. The firmware-embedded SNMP agent can be used to augment the RAID controller if you are already running an SNMP management application at your site.
S.M.A.R.T
Self-Monitoring Analysis and Reporting Technology is an “early warning system” that the disk manufacturers incorporate logic into their drives. AXUS S.M.A.R.T. function detects and reports status of hard drives thus enriches the data availability.
Easy Management
Users can easily configure or maintain the RAID via the RS232 port, LCD control panel, or Web browser-based manager. RAID array configuration, system hardware monitoring, error alert can be all done at your finger tips. |
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AXUS 3U 16 Bahías YA-16SAEF4 - 4Gbit FC to SATAII
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Precio:
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Enhance Features:
Instant Availability/Background Initialization
RAID 0 and RAID 1 volume set can be used immediately after the creation. But the RAID 3, 5 and 6 volume sets must be initialized to generate the parity. In the Normal Initialization, the initialization proceeds as a background task, the volume set is fully accessible for system reads and writes. The operating system can instantly access to the newly created arrays without requiring a reboot and waiting the initialization complete. Furthermore, the RAID volume set is also protected against a single disk failure while initialing. In Fast Initialization, the initialization proceeds must be completed before the volume set ready for system accesses.
Array Roaming
The RAID subsystem stores configuration information both in NVRAM and on the disk drives it can protect the configuration settings in the case of a disk drive or controller failure. Array roaming allows the administrators the ability to move a completely raid set to another system without losing RAID configuration and data on that raid set. If a server fails to work, the raid set disk drives can be moved to another server and inserted in any order.
Online Capacity Expansion
Online Capacity Expansion makes it possible to add one or more physical drive to a volume set, while the server is in operation, eliminating the need to store and restore after reconfiguring the raid set. When disks are added to a raid set, unused capacity is added to the end of the raid set. Data on the existing volume sets residing on that raid set is redistributed evenly across all the disks. A contiguous block of unused capacity is made available on the raid set. The unused capacity can create additional volume set. The expansion process is illustrated as following figure.
The RAID subsystem controller redistributes the original volume set over the original and newly added disks, using the same fault-tolerance configuration. The unused capacity on the expand raid set can then be used to create an additional volume sets, with a different fault tolerance setting if user need to change.
Online RAID Level and Stripe Size Migration
User can migrate both the RAID level and stripe size of an existing volume set, while the server is online and the volume set is in use. Online RAID level/stripe size migration can prove helpful during performance tuning activities as well as in the event those additional physical disks are added to the RAID subsystem. Before the invention of RAID level and stripe size migration, changing the RAID level and stripe size of a RAID system meant backing up all data in the disk array, re-creating disk array configuration with new RAID level and stripe size, and then restoring data back into RAID system. For example, in a system using two drives in RAID level 1, you could add capacity and retain fault tolerance by adding one drive. With the addition of third disk, you have the option of adding this disk to your existing RAID logical drive and migrating from RAID level 1 to 5. The result would be parity fault tolerance and double the available capacity without taking the system off.
RAID 6
A RAID 6 array is essentially an extension of a RAID 5 array with a second independent distributed parity scheme. Data and parity are striped on a block level across multiple array members, just like in RAID 5, and a second set of parity is calculated and written across all the drives. As larger disk arrays are considered, it is desirable to use stronger codes that can tolerate multiple disk failure. When a disk fails in a parity protected disk array, recovering the contents of the failed disk requires successfully reading the contents of all no-failed disks. RAID 6 provides an extremely high fault tolerance, and can sustain two simultaneous drive failures without downtime or data loss. This is a perfect solution when data is mission-critical.
SNMP
Yotta A RAID subsystem firmware-embedded Simple Network Management Protocol (SNMP). An SNMP-based management application (also known as an SNMP manager) can monitor the disk array. An example of An SNMP management application is Hewlett-Packard’s Open View. The firmware-embedded SNMP agent can be used to augment the RAID controller if you are already running an SNMP management application at your site.
MPIO
Multipathing solutions are designed to provide failover through the use of redundant physical path components—adapters, cables, and switches—between the server and storage device under Microsoft environments.
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AXUS 2U 12 Bahías YA-12SAEF4 - 4Gbit FC to SATAII
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Precio:
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Enhance Features:
Instant Availability/Background Initialization
RAID 0 and RAID 1 volume set can be used immediately after the creation. But the RAID 3, 5 and 6 volume sets must be initialized to generate the parity. In the Normal Initialization, the initialization proceeds as a background task, the volume set is fully accessible for system reads and writes. The operating system can instantly access to the newly created arrays without requiring a reboot and waiting the initialization complete. Furthermore, the RAID volume set is also protected against a single disk failure while initialing. In Fast Initialization, the initialization proceeds must be completed before the volume set ready for system accesses.
Array Roaming
The RAID subsystem stores configuration information both in NVRAM and on the disk drives it can protect the configuration settings in the case of a disk drive or controller failure. Array roaming allows the administrators the ability to move a completely raid set to another system without losing RAID configuration and data on that raid set. If a server fails to work, the raid set disk drives can be moved to another server and inserted in any order.
Online Capacity Expansion
Online Capacity Expansion makes it possible to add one or more physical drive to a volume set, while the server is in operation, eliminating the need to store and restore after reconfiguring the raid set. When disks are added to a raid set, unused capacity is added to the end of the raid set. Data on the existing volume sets residing on that raid set is redistributed evenly across all the disks. A contiguous block of unused capacity is made available on the raid set. The unused capacity can create additional volume set. The expansion process is illustrated as following figure.
The RAID subsystem controller redistributes the original volume set over the original and newly added disks, using the same fault-tolerance configuration. The unused capacity on the expand raid set can then be used to create an additional volume sets, with a different fault tolerance setting if user need to change.
Online RAID Level and Stripe Size Migration
User can migrate both the RAID level and stripe size of an existing volume set, while the server is online and the volume set is in use. Online RAID level/stripe size migration can prove helpful during performance tuning activities as well as in the event those additional physical disks are added to the RAID subsystem. Before the invention of RAID level and stripe size migration, changing the RAID level and stripe size of a RAID system meant backing up all data in the disk array, re-creating disk array configuration with new RAID level and stripe size, and then restoring data back into RAID system. For example, in a system using two drives in RAID level 1, you could add capacity and retain fault tolerance by adding one drive. With the addition of third disk, you have the option of adding this disk to your existing RAID logical drive and migrating from RAID level 1 to 5. The result would be parity fault tolerance and double the available capacity without taking the system off.
RAID 6
A RAID 6 array is essentially an extension of a RAID 5 array with a second independent distributed parity scheme. Data and parity are striped on a block level across multiple array members, just like in RAID 5, and a second set of parity is calculated and written across all the drives. As larger disk arrays are considered, it is desirable to use stronger codes that can tolerate multiple disk failure. When a disk fails in a parity protected disk array, recovering the contents of the failed disk requires successfully reading the contents of all no-failed disks. RAID 6 provides an extremely high fault tolerance, and can sustain two simultaneous drive failures without downtime or data loss. This is a perfect solution when data is mission-critical.
SNMP
Yotta A RAID subsystem firmware-embedded Simple Network Management Protocol (SNMP). An SNMP-based management application (also known as an SNMP manager) can monitor the disk array. An example of An SNMP management application is Hewlett-Packard’s Open View. The firmware-embedded SNMP agent can be used to augment the RAID controller if you are already running an SNMP management application at your site.
MPIO
Multipathing solutions are designed to provide failover through the use of redundant physical path components—adapters, cables, and switches—between the server and storage device under Microsoft environments.
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AXUS 2U 8 Bahías YA-08SAEF4 - 4Gbit FC to SATAII
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Precio:
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Enhance Features:
Instant Availability/Background Initialization
RAID 0 and RAID 1 volume set can be used immediately after the creation. But the RAID 3, 5 and 6 volume sets must be initialized to generate the parity. In the Normal Initialization, the initialization proceeds as a background task, the volume set is fully accessible for system reads and writes. The operating system can instantly access to the newly created arrays without requiring a reboot and waiting the initialization complete. Furthermore, the RAID volume set is also protected against a single disk failure while initialing. In Fast Initialization, the initialization proceeds must be completed before the volume set ready for system accesses.
Array Roaming
The RAID subsystem stores configuration information both in NVRAM and on the disk drives it can protect the configuration settings in the case of a disk drive or controller failure. Array roaming allows the administrators the ability to move a completely raid set to another system without losing RAID configuration and data on that raid set. If a server fails to work, the raid set disk drives can be moved to another server and inserted in any order.
Online Capacity Expansion
Online Capacity Expansion makes it possible to add one or more physical drive to a volume set, while the server is in operation, eliminating the need to store and restore after reconfiguring the raid set. When disks are added to a raid set, unused capacity is added to the end of the raid set. Data on the existing volume sets residing on that raid set is redistributed evenly across all the disks. A contiguous block of unused capacity is made available on the raid set. The unused capacity can create additional volume set. The expansion process is illustrated as following figure.
The RAID subsystem controller redistributes the original volume set over the original and newly added disks, using the same fault-tolerance configuration. The unused capacity on the expand raid set can then be used to create an additional volume sets, with a different fault tolerance setting if user need to change.
Online RAID Level and Stripe Size Migration
User can migrate both the RAID level and stripe size of an existing volume set, while the server is online and the volume set is in use. Online RAID level/stripe size migration can prove helpful during performance tuning activities as well as in the event those additional physical disks are added to the RAID subsystem. Before the invention of RAID level and stripe size migration, changing the RAID level and stripe size of a RAID system meant backing up all data in the disk array, re-creating disk array configuration with new RAID level and stripe size, and then restoring data back into RAID system. For example, in a system using two drives in RAID level 1, you could add capacity and retain fault tolerance by adding one drive. With the addition of third disk, you have the option of adding this disk to your existing RAID logical drive and migrating from RAID level 1 to 5. The result would be parity fault tolerance and double the available capacity without taking the system off.
RAID 6
A RAID 6 array is essentially an extension of a RAID 5 array with a second independent distributed parity scheme. Data and parity are striped on a block level across multiple array members, just like in RAID 5, and a second set of parity is calculated and written across all the drives. As larger disk arrays are considered, it is desirable to use stronger codes that can tolerate multiple disk failure. When a disk fails in a parity protected disk array, recovering the contents of the failed disk requires successfully reading the contents of all no-failed disks. RAID 6 provides an extremely high fault tolerance, and can sustain two simultaneous drive failures without downtime or data loss. This is a perfect solution when data is mission-critical.
SNMP
Yotta A RAID subsystem firmware-embedded Simple Network Management Protocol (SNMP). An SNMP-based management application (also known as an SNMP manager) can monitor the disk array. An example of An SNMP management application is Hewlett-Packard’s Open View. The firmware-embedded SNMP agent can be used to augment the RAID controller if you are already running an SNMP management application at your site.
MPIO
Multipathing solutions are designed to provide failover through the use of redundant physical path components—adapters, cables, and switches—between the server and storage device under Microsoft environments.
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