New changes and additions in PC-3000 Flash SSD Edition (version 5.0.4)
1. New controller algorithmsAdded new analysis algorithm for Netac NT2039 controller. Implemented autodetection of settings. Examples of different solutions are available in Global Solution Center.
Important: after using this method, in the case of unsatisfactory results it's necessary to use "Find the shift points" from FAT catalogs or "Data quality analysis" mode with the addition of all detected shift points.
Enhanced Jmicron (JMF601/602) algorithm.
Added new algorithm for ITE1168 controller. Implemented autodetection settings. Examples of different solutions are available in Global Solution Center.
Recommendation for data recovery of tasks with ITE1168 controller:
- It is recommended to use ready solution from Global Solution Center
- Transformation Graph is preferable mode to use during data preparation
- After the page transformation procedure (if it necessary) user should join all dumps and launch algorithm on it.
Important: there is no need to remove typical interleave.
In case of an incorrect order of the dump, message with correct order will be placed into log. In the case of the order correct initially image will be constructed successfully.
Added new analysis algorithm for Stec 24850-00211(MACH4) controller. Implemented auto-detect settings. Examples of different solutions are available in Global Solution Center.
Added new analysis algorithm for Stec 24850-01211 (MACH2,MACH2+) controller. Implemented auto-detect settings. Examples of different solutions are available in Global Solution Center.
Added new analysis algorithm for SSS6690 controller. Implemented auto-detect settings. Examples of different solutions are available in Global Solution Center.
Added new analysis algorithm for SSS6691 controller. Implemented auto-detect settings. Examples of different solutions are available in Global Solution Center.
Added new analysis algorithm for ChipsBank CBM2092 controllers. Implemented auto-detect settings. Examples of different solutions are available in Global Solution Center.
Added new analysis algorithm for ChipsBank CBM2093 controllers. Implemented auto-detect settings. Examples of different solutions are available in Global Solution Center.
Added new analysis algorithm for AlcorMicro AU6990 controllers. Implemented auto-detect settings. Examples of different solutions are available in Global Solution Center.
Added new analysis algorithm for Olympus xD Type 2 controllers. Implemented auto-detect settings. Examples of different solutions are available in Global Solution Center.
Added new analysis algorithm for Silicon Motion (SM) controller family SM267EN. Implemented auto-detect settings. Examples of different solutions are available in Global Solution Center.
Added new analysis algorithm for Silicon Motion (SM) controller family SM3254Q AE. Implemented auto-detect settings. Examples of different solutions are available in Global Solution Center.
Added new analysis algorithm for PHISON controller family PS2251 50-F. Implemented auto-detect settings. Examples of different solutions are available in Global Solution Center.
Added new analysis algorithm for PHISON controller family PS2232BD. Implemented auto-detect settings. Examples of different solutions are available in Global Solution Center.
Added new analysis algorithm for PHISON controller family PS2136CC. Implemented auto-detect settings. Examples of different solutions are available in Global Solution Center.
Added new analysis algorithm for PHISON controller family PS2134CE. Implemented auto-detect settings. Examples of different solutions are available in Global Solution Center.
Added new analysis algorithm for PHISON controller family PS2136CF. Implemented auto-detect settings. Examples of different solutions are available in Global Solution Center.
Added new analysis algorithm for PHISON controller family PS2134CH. Implemented auto-detect settings. Examples of different solutions are available in Global Solution Center.
2. Resources of PC-3000 Flash SSD Edition.
In PC-3000 Flash SSD Edition 5.0.4. now It is possible to add and edit resources, it is parameters separated by type, that used in different modes of the software.
Current version of software provides the following types of resources:
power schemes.
XOR combination which has been designed for a previous version of the data preparation method “XOR Transformation”. This method has been excluded from the tool, and now this type of resource is not available for changes and additions.
XOR transformation for pages – different XOR pattern for the whole page.
reading rules - special rules for reading chips.
The independent editing of the name and content (data) is available for each resource type.
3. Advanced support of TLC (Triple Level Cells) memory chips.
New feature for TLC memory reading has been added. Now it is possible to add own reading rules. TLC uses non-linear page and block addressing within memory that doesn't allow to read memory as continous sequence of pages.
TLC memory chips have following structure:
Chip → Planes → Blocks → Pages
For understanding of differences between TLC and other memory chips is neccessary to introduce concepts of "maximal address space" and "used address space". In SLC and MLC both values are similar, in TLC they always differ. This peculiarity of TLC depends on possibility to store 3 bits of information within one memory cell that breaks usual miltiplicity of power of 2.
Every TLC memory chip might consist of several planes which has maximal address space of N blocks. N - number that equals to power of 2, e.g. 1024, 2048, 4096, etc. The real address space for each plane is less because of oddness of information that is stored in memory cell. For example some memory chips have number of blocks equal to 1404.
The same situation is with blocks which make up the plane. For every block, some continous space of M pages is dedicated. M - number that equals to power of 2 as well, e.g. 64, 128, 256, 512. The real address space for each block is less, it is 3/4 of maximal space. For example some memory chips have number of pages equal to 192 when M=256.
Thus, for TLC memory reading there are additional parameters which should be selected in PC-3000 Flash SSD Edition software:
number of planes
maximal number of blocks per plane (in blocks)
real number of blocks per plane (in blocks)
maximal number of pages per block (in pages)
real number of pages per block (in pages).
Addition and editing of reading rules is implemented via "Resources-->reading rules" menu of PC-3000 Flash SSD Edition. After creation of new reading rule it's possible to select own rule for certain memory chip. Value 0 means no particular reading rules.
Block size for TLC memory chips differs from usual ones (512,1024,2048...) and mostly multiple of 3/4 of usual size.
If the real number of blocks is entered wrongly, every plane will have excess number of blocks filled by FF. The same situation is with real size of block (number of pages per block). If entered value is wrong, every block will have excess number of pages filled by FF.
4. New XOR patterns.
Now it's possible to add own patterns into the database of resources of PC-3000 Flash SSD Edition software, apply it and use in autodetection of XOR elimination.
Addition and editing of XOR patterns is implemented via "Resources → XOR for page" menu of PC-3000 Flash SSD Edition.
To add new XOR it's necessary to enter following parameters:
page size (in bytes)
block size (in pages)
path to binary file with XOR pattern (size of file should be equal to product of page size and block size)
To eliminate XOR in the task it's recommended to use Complex analysis with marked flag "Check necessity of XOR elimination" or data inspection method "Check necessity of XOR elimination"
5. New driver (version 2.0.).
Power management has been improved in the new driver of device, sleep mode bug is fixed.
Warning! It is recomended to always install the latest version of drivers!
6. Version autodetection.
When ambiguilty occurs in some block while image building, the most probable block is placed into the image and the rest of applicants (blocks) are placed into the list of versions.
In case with large number of versions (block-applicants) the task gets to be more complex.
New mode can be launched from any map, folder or file and allows to autoselect the correct version of blocks for entire area of object.
As a result of execution, method selects the flag "Use" for the versions which are correct. It is possible to add versions manually, it also can be used in autoselection.
7. Detailed LOG for Block Number Type 1 .
Now it is possible to control the process of task analysis and image building in order to find the cause of incorrect work of algorithm. Use the maximal detalization of log to get access to this informarion.
Description of log:
Stage 1: Selection of number from service area of each block basing on specified parameters
Sector: 0 Marker_Bytes: 0x1003 Block : 0x0003 ( 3) Counter: 00
Sector: 1024 Marker_Bytes: 0x1108 Block : 0x0108 ( 264) Counter: 00
Sector: 2048 Marker_Bytes: 0x10F9 Block : 0x00F9 ( 249) Counter: 00
Sector: 3072 Marker_Bytes: 0x1014 Block : 0x0014 ( 20) Counter: 00
Sector: 4096 Marker_Bytes: 0x1006 Block : 0x0006 ( 6) Counter: 00
Sector: 5120 Marker_Bytes: 0x10FA Block : 0x00FA ( 250) Counter: 00
Sector: 6144 Marker_Bytes: 0x1011 Block : 0x0011 ( 17) Counter: 00
Sector: 7168 Marker_Bytes: 0x101A Block : 0x001A ( 26) Counter: 00
Sector: 8192 Marker_Bytes: 0x1016 Block : 0x0016 ( 22) Counter: 00
Sector – number of the first sector of block whose service information was used to identify number of block.
Marker_Bytes – initial bytes from which the number of block will be generated in accordance with conditions of algorithm.
Block – number of block calculated from Marker_Bytes using order of bytes, mask and shift.
Counter – value that shows how many times current number of block has been found. It allows to estimate number of banks, approximately.
Stage 2: Analysis of markers – Distributing by banks.
Analysis of markers. Distributing by banks.
Distribution of continuous chains in the bank before adjustment (Bank 0 )
From 0000 To 03F2 Size 1012
Distribution of continuous chains in the bank after adjustment
From 0000 To 03F2 Size 1012
Distribution of continuous chains in the bank before adjustment (Bank 1 )
From 0000 To 03F2 Size 1012
Distribution of continuous chains in the bank after adjustment
From 0000 To 03F2 Size 1012
Distribution of continuous chains in the bank before adjustment (Bank 2 )
From 0000 To 0009 Size 11
From 0010 To 037D Size 879
From 038F To 038F Size 2
Software estimates continuity of numbers of blocks for each bank and removes wrong groups.
From and To - describe certain continuous chain of sequential numbers of blocks within bank.
Stage 3: Conditions of banks building.
Image building is performed in accordance with the following parameters:
Bank 00 Block Number D: 001012 H: 03f4
Bank 01 Block Number D: 001012 H: 03f4
Bank 02 Block Number D: 000895 H: 037f
Bank 03 Block Number D: 000009 H: 0009
This log shows current size of banks which is found by algorithm of analysis. In the case of incorrect determination of bank size, data will be shifted, equally to the excess or missing blocks.
Stage 4: Image building.
Image = 0 Bank = 0 Block = 0x0000 ( 0) From = 846848( Block 0x033B (827) ...Several versions have been found for the current block.
...Block 0x03EC ( 1004) Sector 1028096
Image = 1024 Bank = 0 Block = 0x0001 ( 1) From = 1039360( Block 0x03F7 (1015)
Image = 2048 Bank = 0 Block = 0x0002 ( 2) From = 787456( Block 0x0301 (769)
Image = 3072 Bank = 0 Block = 0x0003 ( 3) From = 0( Block 0x0000 (0) )
Image = 4096 Bank = 0 Block = 0x0004 ( 4) From = 1038336( Block 0x03F6 (1014)
Image = 5120 Bank = 0 Block = 0x0005 ( 5) From = 1046528( Block 0x03FE (1022)
Image - number of the first sector of block in the final result that is being formed.
Bank - number of the bank that is being formed.
Block - number of the block that is being formed. (hex and dec views).
From - number of the first sector of source block that is being placed to the specified position of analysis result.
8. Innovations in the interface.
1. Method "XOR transformation" has been changed to "XOR tranfromation for page". In the new concept it's necessary to perform XOR checking and elimination before page transformation but after joining by bytes (if required, e.g. Indilinx controller). All old solutions where XOR was used from previous version work correctly.
2. Drop-down list of controllers has been changed to the blank field. In this field the real marking of controller should be entered. It is very important to enter correct controller marking for further online solution search via software.
3. In the graph mode now it's possible to get real a ID of result in log by clicking on one of results.
4. New method "Synchronization of the channels" has been added to data preparation menu. This operation is necessary for data recovery from drives where multi-channel read/write operations were used (typical for SSD). This operation allows to eliminate asynchrony of allocation of symmetrical data within channels for successful joining to one result for further data analysis. In the current version of software this function is necessary only for JMicron controllers. It's recommended to apply it before any operations between memory chips/parts.
5. New flag has been added into Complex analysis parameters which helps to perform all operations within transformation graph.
6. New XOR patterns have been added into database, its automatical detection is implemented.
7. New additional parameters have been added in the Block Number Type 1. Now it is possible to enter additional parameters of block selection.
The specified conditions used for selection of blocks which form the final image of data. Every condition comprises 4 parameters:
byte position – position of byte within sector which value is controlled,
mask (heximal)
condition – can assume 2 variants: equal or not equal
value (heximal) – value after applying the mask is compared with this field
Sometimes additional conditions allow to improve the quality of result of analysis. For example to analyze only blocks which have byte 0x50 in the first byte of service area it is necessary to add following condition.
Position: 512
Mask: 0xFF
Condition: =
Value: 0x50
Under this condition all the rest blocks won't be analyzed.
8. Complex analysis has been optimized, its speed and efficiency is dramatically increased. If during "conversions within page" check the process is interrupted, and some conversions are confirmed, the pop-up message will appear that will offer to apply found conversion.
Results of operations will be placed into the transformation graph for the further work.
9. Now if the error occurs while image building it is possible to choose delete or leave result of analysis.
10. New function of automatic generation of Versions has been added into "Block Number Type 1".
If ambiguous situation occurs while image building and several applicants of block are compatible to the certain position, the most suitable block will be placed on the position inside image and other applicants will be added into list of “Versions” for this block. If the error occurs in image it is possible to change the certain block which was wrongly placed on its position.
All known bugs have been fixed.
备注:正在编辑,未完; 全英语我无语 全是英语,从哪里拷贝的; 才子一个,,,,赞一个,慢慢翻译中 。。。。。。。。。。。。。。。。。。。。。。。。{:4_147:} [推荐]新的变化和增加在PC-3000闪存SSD版(版本5.0.4)
1。新的控制器算法
朗科NT2039控制器添加了新的分析算法。实现自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
重要的是:使用这种方法后,成绩不理想的情况下,有必要使用“查找”从FAT目录或“数据质量分析”模式除了与所有检测到的换档点换档点。
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2011年5月30日16:59
增强JMICRON(JMF601/602)算法。
加入ITE1168控制器的新算法。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
任务与ITE1168控制器的数据恢复的建议:
- 建议使用现成的解决方案,全球解决方案中心
- 变换图是最好的模式,在数据准备使用
- 在用户的页面转换程序(如果有必要)应加入所有的转储和启动它的算法。
重要的是:有没有必要去除典型的交错。
在一个不正确的转储订单的情况下,正确的顺序的消息将被放入日志。在订单的情况下,正确的最初形象,将构建成功。
24850-00211(MACH4)STEC控制器添加了新的分析算法。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
添加新的分析算法STEC 24850-01211(MACH2,MACH2 +)控制器。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
增加SSS6690控制器的新的分析算法。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
增加SSS6691控制器的新的分析算法。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
芯邦CBM2092控制器添加了新的分析算法。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
芯邦CBM2093控制器添加了新的分析算法。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
增加了新的分析算法AlcorMicro AU6990控制器。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
奥林巴斯xD 2型控制器添加了新的分析算法。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
Silicon Motion公司(SM)的控制器系列SM267EN添加了新的分析算法。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
Silicon Motion公司(SM)控制器的家庭SM3254Q曝光添加了新的分析算法。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
群联的控制器家族PS2251 50 - F添加了新的分析算法。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
群联的控制器家族的补充新的分析算法PS2232BD。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
群联的控制器家族PS2136CC添加了新的分析算法。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
新增群联控制器家族PS2134CE的新的分析算法。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
群联的控制器家族PS2136CF添加了新的分析算法。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
群联的控制器家族PS2134CH添加了新的分析算法。实施自动检测设置。在全球解决方案中心提供不同的解决方案的例子。
2。 PC-3000闪存SSD版的资源。
在PC-3000闪存SSD版5.0.4。现在可以添加和编辑资源,它是分开的参数类型,不同模式的软件使用。
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2011年5月30日16:59
当前的软件版本提供了以下类型的资源:
电源使用方案。
异结合已设计为以前版本的数据制备方法“异转型”。这种方法已经被排除的工具,现在这种类型的资源可用于修改和补充。
异转型的页面 - 整个页面的不同异格局。
阅读规则 - 读芯片的特殊规则。
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2011年5月30日16:59
独立的名称和内容编辑(数据),可为每个资源类型。
3。 TLC(三级单元)内存芯片的高级支持。
薄层内存读的新功能已被添加。现在可以添加自己的阅读规则。薄层色谱法使用非线性页和块在内存寻址,不允许读取内存页的连续序列。
薄层内存芯片有以下结构:
芯片→平面→块→页
为了解薄层色谱法和其他内存芯片之间的差异是neccessary引进的“最大地址空间”和“使用的地址空间”的概念。 SLC和MLC这两个值是相似的,他们总是在薄层不同。这种薄层的特点取决于存储在一个存储单元,打破平时的2的幂miltiplicity 3比特的信息的可能性。
每个薄层内存芯片可能包括几架飞机,其中有n块的最大地址空间。的N - 数等于2的功率,例如1024,2048,4096等,每架飞机的真正的地址空间是因为奇怪的是在存储单元中存储的信息少。例如,一些内存芯片数量等于到1404块。
相同的情况下是它弥补了平面的块。对于每个块,一些并购页的连续空间是专用的。的M - 数等于2的乘方,以及,如64,128,256,512。每块的真实地址空间比较少,这是3/4的最大空间。例如,一些内存芯片页等于192当M = 256。
因此,薄层内存读,有额外的参数,应在选定的PC-3000闪存SSD版软件:
平面数
每架飞机的块的最大数量(块)
实数,每架飞机的块(块)
每块页的最大数目(页)
每块页的实数(页)。
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2011年5月30日16:59
除了和编辑阅读规则的实施,通过“资源 - >阅读规则”PC-3000闪存SSD版的菜单。创造新的阅读规则后,它可能选择自己的规则对某些内存芯片。值为0表示没有什么特别的阅读规则。
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2011年5月30日16时59座大小薄层内存芯片不同于平常的(512,1024,2048),大多是正常大小的3/4的倍数。
如果输入错误的实数块,每架飞机将有多余的数量按FF填充块。同样的情况是实际大小的块(每块的页数)。如果输入的值是错误的,每块有多余的数量按FF填充的页面。
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2011年5月30日16:594。新的XOR模式。
现在它可以添加到自己的模式,PC-3000闪存SSD版软件资源数据库,应用它,并使用自动检测异或消除。
实施通过“资源→异异模式除了和编辑页面”菜单中的PC-3000闪存SSD版。
添加新异,这是需要输入以下参数:
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页大小(以字节为单位)
块大小(页)
路径异格局的二进制文件(文件大小应该等于页面大小和块大小的产品)
为了消除异的任务,它建议使用复杂的分析,具有显着的标志,“异或消除的必要性”或数据的检查方法检查“检查异或消除的必要性”
5。新的驱动程序(版本2.0)。
电源管理已在新的设备驱动程序的改善,睡眠模式的bug是固定的。
警告!据recomended始终安装最新版本的驱动程序!
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6。版本自动检测。
当ambiguilty发生在一些街区形象建设的同时,最有可能的块放入图像和其他申请人(块)放置到版本列表。
大量版本的情况下(区块申请人)的任务变得更加复杂。
推出新模式可以从任何地图,文件或文件夹,并允许自动选择正确的版本对象的整个区域的块。
作为执行结果,方法的选择是正确的版本的“使用”的标志。手动添加的版本,它是可能的,它也可以用在自动选择。
7。详细的日志块数1型。
现在,它是可以控制的任务分析和形象建设的过程中,为了找到不正确的算法工作的原因。使用日志的最大detalization获得这informarion。
日志说明:
第1阶段:服务每块面积数的选择上根据指定的参数
部门:0 Marker_Bytes:0x1003块:0x0003(3)计数器:00
部门:1024 Marker_Bytes:0x1108块:0x0108(264)计数器:00
部门:2048 Marker_Bytes:0x10F9座:0x00F9(249)计数器:00
部门:3072 Marker_Bytes:0x1014块:0x0014(20)计数器:00
部门:4096 Marker_Bytes:0x1006块:0x0006(6)反:00
部门:5120 Marker_Bytes:0x10FA座:0x00FA(250)计数器:00
部门:6144 Marker_Bytes:0x1011块:0x0011(17)计数器:00
部门:7168 Marker_Bytes:0x101A座:0x001A(26)计数器:00
部门:8192 Marker_Bytes:0x1016块:0x0016(22)计数器:00
部门 - 数块的第一部门,其服务的信息被用来确定块数。
Marker_Bytes - 初始字节的块数将根据算法的条件下产生的。
块 - Marker_Bytes使用顺序字节,口罩和移位计算块数。
计数器 - 值,显示目前有多少块已经发现了多少次。它允许银行估计数,约。
第二阶段:分析标记 - 银行的分布。
标记分析。分销银行。
连续连锁店分布在调整前的银行(银行0)
从0000到03F2尺寸1012
分布在银行调整后的连续链
从0000到03F2尺寸1012
连续连锁店分布在调整前的银行(银行1)
从0000到03F2尺寸1012
分布在银行调整后的连续链
从0000到03F2尺寸1012
连续连锁店分布在调整前银行(央行2)
从0000到0009尺寸11
从0010 037D尺寸879
从038F到038F尺寸2
软件估计每家银行的块数的连续性,并删除错误的组。
从“和” - 形容某些连续的链内银行卡的序列号。
第三阶段:建设条件的银行。
形象建设是根据下列参数:
银行00座型式D:001012Ĥ:03f4
银行01座型式D:001012Ĥ:03f4
银行02座型式D:000895Ĥ:037f
银行03座型式D:000009的Ĥ:0009
此日志显示银行的电流大小,发现这是由分析算法。在银行规模不正确的决心的情况下,数据将被转移,同样多余或丢失块。
第四阶段:形象建设。
图片= 0银行= 0座= 0X0000(0)= 846848(0x033B座(827)...几个版本已找到当前块。
...座0x03EC部门(1004)1028096
图片= 1024银行= 0座= 0x0001 = 1039360(1)(座0x03F7(1015)
图片= 2048银行= 0块= 787456 = 0x0002来(2)(块0x0301(769)
图片= 3072银行= 0座= 0x0003 = 0(座为0x0000(0))(3)
图片= 4096银行= 0座= 0x0004 = 1038336(4)(0x03F6座(1014)
图片= 5120银行= 0座= 0x0005 = 1046528(5)(0x03FE座(1022)
图片 - 在正在形成的最终结果的第一个扇区的块数。
银行 - 正在形成的银行数量。
座 - 正在形成的块数。 (十六进制和十进制的意见)。
- 数源块的第一个扇区,被放置到指定位置的分析结果。
8。在界面的创新。
1。法“异转型”已改为“异tranfromation页”。在新的概念,它是必要的页面转型,但之前执行XOR校验和字节(如果需要的话,例如Indilinx控制器)加入后消除。所有异,从以前的版本工作的正确使用旧的解决方案。
2。下拉列表控制器已改变的空白领域。真正标志着在这一领域的控制器应进入。标志着进一步通过软件的在线解决方案搜索输入正确的控制器,它是非常重要的。
3。图中的模式,现在有可能得到真正的ID在日志结果,点击结果之一。
4。新方法“的渠道同步”已被添加到数据准备“菜单。此操作是从多渠道驱动器读/写操作被用来(固态典型)的数据恢复所必需的。此操作可以消除内部渠道异步分配对称数据成功加入到进一步的数据分析的结果之一。在当前的软件版本,这个功能是必要的,只为智微控制器。它建议申请之前,内存芯片/部件之间的任何操作。
5。新的标志已被添加到复杂的分析参数,帮助内执行所有操作,变换图。
6。新异或模式已经被添加到数据库中,实现其自动化检测。
7。已添加新的额外的参数块编号1型。现在可以进入块选择的附加参数。
形成最终图像数据块的选择使用指定的条件。每一个条件包括4个参数:
字节的位置 - 部门内的字节值控制的地位,
面具(heximal)
可以假设条件 - 2个变种:等于或不等于
这个领域比较值(heximal) - 应用面具后的价值
有时附加条件允许的情况下,以提高分析结果的质量。例如分析只有在服务区的第一个字节的字节0x50的块,它是必要的补充下列条件。
位置:512
面膜:为0xFF
条件:
值:0x50的
在这种情况下所有剩下的块将不会被分析。
8。复杂的分析得到了优化,其速度和效率大大提高。如果在“转换内页的”检查过程中被中断,一些转换确认,会出现弹出消息将提供适用于发现转换。
经营业绩,将被放入为进一步开展工作的变换图。
9。现在,如果发生错误,而形象建设,是有可能选择删除或保留分析结果。
10。新版本的自动生成功能已被添加到“座数1型”。
如果出现模棱两可的情况,而形象建设和申请数块兼容到一定的位置,最适合的块将被放置在位置内图像和其他申请人将被添加到这个街区的“版本”列表。如果错误发生在图像有可能改变其位置上放置若干块,这是错误的。
所有已知的错误已得到修复。
备注:正在编辑,未完; 谷歌翻译 给力 支持八喜哥(49: 学习了呀,谢谢楼主
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