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ACE PC-3000 FLASH 发布最新升级 7.4.11 [复制链接]

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发表于 2020-5-15 10:17:24 |显示全部楼层
The PC-3000 Flash Software Update 7.4.11 is now available!

Data recovery engineers and digital forensics experts consider the PC-3000 Flash as the tool №1 when it comes to extracting data/evidence from damaged NAND Flash devices. It is the only solution that completely supports many drive brands, e.g. SanDisk, new Phison, or SiliconMotion, so you can get file systems, and separate files both. Now we have expanded the list of supported storage media by adding 9 types of translators for SanDisk 8sec, 2 subtypes of translators for SM2704, and have improved algorithms for PS8210.

Also, you can now edit the solution before implementing it and reproduce the result in the transformation graph form that increases the efficiency of the solutions.

All these features and many others are now available with the following English, Japanese, Korean and Chinese software update:

  • PC-3000 Flash software Ver. 7.4.11

All authorized technical support users will get the latest software versions. Please contact us to learn more on how to become an authorized technical support user and receive all of the recent PC-3000 Software Updates:

RENEW YOUR TECHNICAL
SUPPORT CONTRACT



SHORT LIST OF ENHANCEMENTS
  • Added 9 types of translators for SanDisk 8sec;
  • Added 2 subtypes of translator for SM2704;
  • Improved the algorithm of the analysis and image building for the PS8210 controller;
  • Added support for the new PS8210 MK3412 subtype (new modification of PS8210 CPU);
  • Added a new class of operations - "Complex operations".
  • Added the ability to choose different XORs from the list in the "XOR analysis";
  • Added the ability to reproduce a solution with the result presented in the transformation graph form;
  • Added the ability to edit the solution steps right before execution.

DETAILED LIST OF ENHANCEMENTS
  • Added 9 types of translators for SanDisk 8sec;
  • Added 2 subtypes of translator for SM2704;
  • Improved the algorithm of the analysis and image building for the PS8210 controller;
  • Added support for the new PS8210 MK3412 subtype (new modification of PS8210 CPU);
  • Added the ability to sort XORs by columns in Xor Analysis option;
  • Removed the software restriction of access to complex parameters in the "Without using a device” operating mode;
  • Added support for BadBytes with 1-bit size. To use this type of BadBytes cut you need to specify the ECC format in your task (requires for some of CBM2099A(E), DM and the latest ITE controller-based cases);
  • Added a "Map of unused blocks" tool to the "Image result" allowing you to get a map of blocks that did not get into the built logic image. It adds a possibility to search for the required data types in the unused or non-addressable drive area;
  • Added the ability so skip completely incorrect pages in "Rereading" mode, which allows reducing the time during the process of rereading;
  • Added a new class of operations - "Complex operations". They allow you to perform typical sequences of user actions in one click. In this version we add 2 complex operations:
    • "Create submap and reread": this operation sequentially performs the following actions:
      • builds a map of the result;
      • builds a map "uncorrected sectors"
      • starts the rereading procedure.
    • "Raw Recovery and create drive from map": this operation sequentially performs the following actions:
      • "Raw Recovery" on the selected result;
      • builds a map of the result;
      • creates the image based on the constructed map and RAW recovery result.


  • Added the ability to build a sub-map of sectors related to pages containing at least one corrected range. This option allows excluding completely incorrect pages from further re-reading procedure and optimizing the process of reading;
  • Added the ability to exclude ranges in Rereading mode which allows increasing the effectiveness of the mode;

  • Added the ability to switch the data displayed in "Remap page in block" as well as in loading the table with presets from the file;
  • Added support for planes in the "Remap page in block". It allows changing the page order for each plane independently;
  • Added support for tasks where the number of dumps is not even and not equal to 2;
  • Added support for a large number of bad bytes positions (more than 2048) in the "Bad bytes cutting". The Automatic BB search mode has been optimized and improved;
  • Added a new tool called "Autodetect ECC using ReadRetry mode". The option is recommended for tasks where poor quality dump prevents normal ECC autodetection. The method combines the mode of rereading by sampling pages with ECC autodetection at every step.
  • Menu "Data Preparations" is regrouped so that the most frequently used items are easier to access. This feature is optional and can be activated in the PC-3000 Flash parameter window;
  • Added the "Join by pages (file-based)" preparation method, which allows eliminating f sub-blocks interleave for out-of-sync tasks when there are no markers and tables synchronization. After this preparation, SSS-based tasks could be successfully recovered by the "Image Building Based on data analysis" method. This new preparation requires choosing the logical block and logical page size, which are going to be used during joining;
  • The final result of page joining can be viewed and adjusted after its completion;
  • Added the ability to choose different XORs from the list in the "XOR analysis";
  • Added the ability to reproduce a solution with the result presented in the transformation graph form;
  • Also added the ability to edit the solution steps right before execution;
  • Added the ability to select the type of the page to mask in the preliminary preparation method "Mask pages with ECC errors", and the ability to indicate logical page size in sectors. If within a logical page there will be at least one physical page corresponding to the marked signs, then the whole logical page will be virtually filled with the FF byte, which will exclude its influence on the results of analysis and image building;

Added resources:


  • Static XOR:
    • SM3267 BLK=256 PG=18047 (1126x16+31) D7AF47 REQ
    • AU699x BLK=128 PG=18336 (1146x16)
    • SM3257 BLK=512 PG=17600 (1094x12+31)
    • SM3257 BLK=258 PG=9216 (1136x8+27) B36ED5 REQ
    • SM3257 BLK=256 PG=17600 (1098x16+31) D7AF47 FEQ
    • PS2251-09 BLK=768 PG=18432 (1152+15x1144)
    • PS2251-09 BLK=2304 PG=18592 (1158+15x1150)
    • SM3255 BLK=192 PG=8640 (1066x8+27) 1D3507
    • SM3257 BLK=128 PG=17600 (1138x12+27) 4C912A
    • PS2251-70 BLK=256 PG=18432 (1137+15x1129)
    • SM3268 BLK=768 PG=18432 (1144x16+27)
    • AU699x BLK=256 PG=18432 (1146x16) DATA
    • IS917 BLK=256 PG=8832 (1094x8+32) 3C5811
    • AU699x BLK=1536 PG=9296 (1152x8) (For MLCx3)
    • SM3268 v2 BLK=2304 PG=18592 (1150x16+27) E8018F
    • PS2251-07 BLK=256 PG=18592 (1158x16) FA9E80
    • AU6989 PG=18592 BLK=2304 (1162x16)
    • SM3268 BLK=256 PG=18592 (1150x16+27)
    • SM2702 BLK=128 PG=8832 (1100x8+31) F60034
    • IS902 BLK=128 PG=17664 (1100x16+30)
    • SM3268 BLK=512 PG=18592 (1150x16+27) E8018F
    • IS903 BLK=256 PG=8832 (1100x8+30) 3C4691
    • IS903 BLK=256 PG=8832 (1100x8+30) 3C4691 SA
    • IS918 BLK=256 PG=18432 (1144+15x1136) SA ECC A500B1
    • SM2703 BLK=256 PG=18432 (1126x16+31) F6C836
    • SM3267 BLK=576 PG=18432 (1144x16+27)
    • Sandisk BLK=16 PG=18432 (2292x8) v2
    • SM2703 BLK=256 PG=8944 (1112x8+31) 17FE70 SA CUT
    • E200 BLK=64 PG=17664 (1103x16) CF7ED4
    • IS917 BLK=256 PG=17664 (1094x16+32) 3C5811
    • PS2251-09 BLK=1152 PG=18432 (1152_15x1144) 9A9EF0

  • Memory chips, reading parameters.
    • 2C64444B Micron MT29F64G08Cxxxx
    • 45DE9493 SanDisk SDTNRGAMA_008G 15nm
    • 45499BB3 SanDisk Noname Monolith 256Gb
    • 983AA493 Toshiba TC58TEG7DDKTA00
    • 453C98B3 SanDisk Noname 32G
    • 2CD390A6 Micron MT29F8G08ABACA
    • 45DE9493 SanDisk SDTNRGAMA_008G 15nm
    • 984AA982 Toshiba TH58NVG8T7FLAK9 TLGA52
    • 45489AB3 SanDisk Monolith 128GB
    • 2C680856 Micron 29F32G08EBAAA
    • 2C84D832 Micron noname 16GB
    • ECDEA47A Samsung K9GCGD8U0A
    • 89D48932 Intel Noname 128G
    • AD3A1403 Hynix Noname 16G
    • AD5A14F3 Hynix Noname 16Gb
    • 89D5943E Intel JS29F16G08AAMC1
    • 98DAA5C0 Toshiba TC58DVG14B1FT00
    • 98DC9015 Toshiba Noname 512Gb
    • 983E99B3 Toshiba Noname 64GB
    • 453C99B3 SanDisk Noname Monolith
    • AD5E2822 Hynix Noname 64Gb
    • AD5E2822 Hynix Noname 64Gb
    • 983C98B3 Toshiba HVKK0FG
    • 983C98B3 Toshiba HVKK0FG
    • 983C98B3 Toshiba HVKK0FG
    • 2C845832 Micron MT29F256G08EFCDB
    • B564643C Spectek MT29FxxG08CxCDB
    • 453C98B3 SanDisk Noname Monolith
    • 983C98B3 Toshiba HVKK0FG

  • ECC ranges for NAND chips:
    • 18336;16-1146;
    • 17600;12-1094;31;
    • 17600;12-1138;27;
    • 18592;16-1162;
    • 17664;16-1100;30;
    • 18432;1144;15-1136;
    • 18432;16-1126;31;
    • 18432;16-1126;31;
    • 18432;16-1126;31;
    • 18432;16-1144;27;
    • 18336;16-1140;31;
    • 2112;2-1055;
    • 2112;2-1055;

  • Dynamic XOR and algorithms for executing them:
    • CBM: 86_9216_1152x8_2
    • CBM 64_4320_1080x4_6
    • CBM: 128_8832_1085x8_2

  • Arrangements of technological outputs (Pinout maps) of/for monolithic drives.

UFD Type 43

micro SD Type 44

micro SD Type 45

micro SD Type 46

micro SD Type 47

micro SD Type 48

micro SD Type 49

Memory Stick Pro Duo Type 4

SDHC Type 22

UFD Type 44

micro SD Type 50

micro SD Type 51

micro SD Type 52

micro SD Type 53

micro SD Type 54

micro SD Type 55

micro SD Type 56 Type1

micro SD Type 56 Type2

micro SD Type 57

micro SD Type 58


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