Thursday, June 7, 2012

火焰病毒 - [圖+影]目前最精密複雜的網絡攻擊武器 火焰病毒






火焰病毒



火焰病毒 : 網絡諜戰愈演愈烈,國際電腦保安專家發表報告,確認一款針對伊朗等中東國家的電腦間諜軟件,專蒐敏感資料,形容它為「目前最精密複雜的網絡攻擊武器」,連 防毒軟件亦無法偵察。專家估計,如此精密的間諜工具需龐大人力物力,相信是政府開發。從襲擊目標來看,美國以色列大有嫌疑。防毒軟件商 Symantec 稱,匈牙利、俄羅斯和香港等亦曾有此病毒感染個案,不排除用戶攜手提電腦外遊後意外中毒。


火焰病毒
火焰病毒
俄羅斯知名防毒軟件商卡巴斯基實驗室稱,這種史上最強的間諜軟件名為「火焰」 (Worm.Win32.Flame) ,自 2010 年 8 月或更早以前開始運作,潛伏至少兩年未被發現。現在雖已破解它的原碼,但無法查出源頭。聯合國國際電訊聯盟昨向成員國發出「歷來最嚴重警告」,指「火焰」 病毒是危險間諜工具,可用來攻擊關鍵基建設施。發現「火焰」病毒的卡巴斯基實驗室更警告,它可成為西方和以色列的「網絡戰武器」。

實驗室首席電腦病毒專家卡姆盧克 (Vitaly Kamluk) 稱,這種病毒襲擊的高度針對性,反映它是厲害的「網絡武器」, 382 宗有上報的中毒個案, 189 宗在伊朗發生;以色列及巴勒斯坦地區、蘇丹、敘利亞、黎巴嫩、沙特和埃及等中東石油輸出國及衝突地區,也是入侵目標。

伊朗國家電腦緊急應變小組稱,之前用了 43 種防毒程式也無法偵察到「火焰」存在,直至最近才研製出專門針對「火焰」的防毒程式。網絡保安專家亦認為,伊朗石油部和當地多間油公司的內聯網上月遭入侵,就是受「火焰」攻擊。

伊朗當局聲言,「火焰」病毒與前年入侵伊朗核計劃電腦系統的 Stuxnet (震網) 病毒有關。伊朗當年曾指控美國和以色列軍情機關炮製 Stuxnet 病毒,發動攻擊,導致伊朗鈾濃縮設施的離心機故障。卡巴斯基實驗室亦指,「火焰」部分特徵跟 Stuxnet 相像,相信「火焰」的程式編寫人有機會分享 Stuxnet 的技術。但有別於 Stuxnet 專門刪除中毒電腦的資料,新病毒主要用於暗中偷取大量敏感資料,不會破壞電腦系統。

火焰病毒

卡姆盧克稱,「火焰」的代碼長度是 Stuxnet 的 20 倍,更是一般竊取金融資料病毒的 100 倍,從其複雜程度判斷,絕非普通駭客的攻擊工具,也不是金融罪犯用以從銀行戶口偷錢的軟體。它從中毒電腦獲取信息的手段之多,亦屬罕見,相信是專家埋頭苦幹多月的成果,只有政府才有資源研發。

火焰病毒
火焰病毒
Symantec 的愛爾蘭分部稱,此病毒「難以置信地聰明」,表面看來無異於普通軟件,起碼要十多名專家用幾個月編寫。匈牙利的加密和系統安全實驗室 (CrySys) 亦稱,這種可觀的資源,相信涉及某個政府的網絡戰。儘管卡姆盧克承認,現沒證據證明「火焰」由哪國開發,但美國和以色列被認為嫌疑最大。

這次「火焰」病毒,最可能是通過 USB 裝置引入。一旦植入電腦,病毒程式就會連接到由施襲者控制的伺服器網絡,下載其他所需的竊密程式,齊集各種間諜功能後,就能透過多種途徑竊密。

專家形容這病毒就像「機密吸塵機」,什麼細微資料也不放過。每當有人在中毒電腦開啟電郵,或進行即時網上通訊,內容即被竊取,病毒更會截取屏幕畫面,以及暗中操控電腦米高風,收錄對話。此外,中毒電腦的網上瀏覽活動、鍵盤輸入內容,都是蒐集目標。它還可通過藍牙和 Wi-Fi ,蒐集附近電子產品,包括智能手機和手提電腦的資料。

專家還發現,有下載了「補丁」更新的微軟視窗 7 電腦,曾遭該病毒入侵,就算安裝了防毒軟件,「火焰」病毒仍是防不勝防,皆因它不會執行一般惡意程式會作出的典型動作,可避免觸動電腦防毒系統進行掃毒偵察。它亦可能有能力自我清除在中招電腦裝置中留下的活動痕跡,令遇襲目標蒙在鼓裏。

火焰病毒 影片:


影片:最強間諜病毒 入侵中東5年 2012.05.30
http://www.youtube.com/watch?v=BrWqs0YtfuA&feature=player_embedded
   


take from:

Wednesday, December 21, 2011

MEMORY for hardware device



Internal storage areas in the computer The term memory identifies data storage that comes in the form of chips, and the word storage is used for memory that exists on tapes or disks. Moreover, the term memory is usually used as a shorthand for physical memory, which refers to the actual chips capable of holding data. Some computers also use virtual memory, which expands physical memory onto a hard disk.
Every computer comes with a certain amount of physical memory, usually referred to as main memory or RAM. You can think of main memory as an array of boxes, each of which can hold a single byte of information. A computer that has 1 megabyte of memory, therefore, can hold about 1 million bytes (or characters) of information.
Memory Manufacturers Corsair, Kingston, Rambus, Crucial, Samsung, PNY, Micron
Memory Terminology
Memory speed - measured in nanoseconds, this is the time to access data that is stored in memory
the lower the nanoseconds the faster the memory (2ns-80ns)
Parity - A simple error checking method use in memory correction
ECC-Error correction code use in memory correction for newer computers
Memory Banks - A socket where memory is installed Example 4 banks will have 8MB of memory each for a total of 32MB
There are several different types of memory:
 240-pin DIMM----------------------------- DDR3 SDRAM

ROM or Read Only Memory, Computers almost always contain a small amount of read-only memory that holds instructions for starting up the computer. Unlike RAM, ROM cannot be written to. It is non-volatile which means once you turn off the computer the information is still there.

PROM, short for programmable read-only memory A PROM is a memory chip on which data can be written only once. Once a program has been written onto a PROM, it remains there forever. Unlike RAM, PROM's retain their contents when the computer is turned off. The difference between a PROM and a ROM (read-only memory) is that a PROM is manufactured as blank memory, whereas a ROM is programmed during the manufacturing process. To write data onto a PROM chip, you need a special device called a PROM programmer or PROM burner. The process of programming a PROM is sometimes called burning the PROM.

EPROM (erasable programmable read-only memory) is a special type of PROM that can be erased by exposing it to ultraviolet light. Once it is erased, it can be reprogrammed. An EEPROM is similar to a PROM, but requires only electricity to be erased.

EEPROM- Acronym for electrically erasable programmable read-only memory. Pronounced double-ee-prom or e-e-prom, an EEPROM is a special type of PROM that can be erased by exposing it to an electrical charge. Like other types of PROM, EEPROM retains its contents even when the power is turned off. Also like other types of ROM, EEPROM is not as fast as RAM. EEPROM is similar to flash memory (sometimes called flash EEPROM). The principal difference is that EEPROM requires data to be written or erased one byte at a time whereas flash memory allows data to be written or erased in blocks. This makes flash memory faster.

RAM (Random Access Memory) is a temporary (Volatile) storage area utilized by the CPU. Before a program can be ran the program is loaded into the memory which allows the CPU direct access to the program. 


2 Types of RAM

SRAM Short for static random access memory, and pronounced ess-ram. SRAM is a type of memory that is faster and more reliable than the more common DRAM (dynamic RAM). The term static is derived from the fact that it doesn't need to be refreshed like dynamic RAM.
SRAM is often used only as a memory cache usually found in the CPU (L1, L2 and L3 Cache)

DRAM stands for dynamic random access memory, a type of memory used in most personal computers.

Types of DRAM Packages and DRAM Memory
LAPTOP MEMORY
 (72, 144, 200) SO-DIMM

SO-DIMM Short for Small Outline DIMM, a small version of a DIMM used commonly in notebook computers. 72 supports 32bit and 144 and 200 SO-DIMM pins supports a full 64-bit transfer.
 (144, 172) Micro-DIMM

Micro-DIMM 
Short for Micro Dual Inline Memory Module, a competing memory used on laptops, mostly supports 144 and 172 pins.

SIMM Acronym for single in-line memory module, a small circuit board that can hold a group of memory chips. Typically, SIMM's holds up 8 (on Macintoshes) or 9 (on PCs) RAM chips. On PCs, the ninth chip is often used for parity error checking. Unlike memory chips, SIMM's is measured in bytes rather than bits. SIMM's is easier to install than individual memory chips. A SIMM is either 30 or 72 pins.
30 pin SIMM (Usually FPM or EDO RAM)
FPM RAM Short for Fast Page Mode RAM, a type of Dynamic RAM (DRAM) that allows faster access to data in the same row or page. Page-mode memory works by eliminating the need for a row address if data is located in the row previously accessed. It is sometimes called page mode memory.

72 pin SIMM (EDO RAM)

EDO DRAM Short for Extended Data Output Dynamic Random Access Memory, a type of DRAM that is faster than conventional DRAM. Unlike conventional DRAM which can only access one block of data at a time, EDO RAM can start fetching the next block of memory at the same time that it sends the previous block to the CPU.

DIMM Short for dual in-line memory module, a small circuit board that holds memory chips. A single in-line memory module (SIMM) has a 32-bit path to the memory chips whereas a DIMM has 64-bit path. Because the Pentium processor requires a 64-bit path to memory, you need to install SIMM's two at a time. With DIMM's, you can install memory one DIMM at a time. A DIMM contains 168 pins.
168 pin DIMM (SDRAM)
SDRAM Short for Synchronous DRAM, a new type of DRAM that can run at much higher clock speeds than conventional memory. SDRAM actually synchronizes itself with the CPU's bus and is capable of running at 133 MHz, about three times faster than conventional FPM RAM, and about twice as fast EDO DRAM . SDRAM is replacing EDO DRAM in many newer computers
SDRAM delivers data in high speed burst
184 pin DIMM (DDR-SDRAM)

DDR SDRAM Short for Double Data Rate-Synchronous DRAM, a type of SDRAM that supports data transfers on both edges of each clock cycle, effectively doubling the memory chip's data throughput. DDR-SDRAM is also called SDRAM II.
 240 DIMM (DDR2-SDRAM)
DDR2-SDRAM Short for Double Data Rate Synchronous DRAM 2 is a type of DDR that supports
higher's speeds than it's predecessor DDR SDRAM
 240 DIMM (DDR3-SDRAM)
DDR3-SDRAM Short for Double Data Rate Synchronous DRAM 3 is the newest type of DDR that supports
the fastest speed of all the SDRAM memory
184 pin RIMM (RDRAM)

RIMM Rambus Inline Memory Module, The memory module used with RDRAM chips. It is similar to a DIMM package but uses different pin settings. Rambus trademarked the term RIMM as an entire word. It is the term used for a module using Rambus technology. It is sometimes incorrectly used as an acronym for Rambus Inline Memory Module. A RIMM contains 184 or 232pins. Note must use all sockets in RIMM installation or use C_RIMM to terminate banks
 232 pin RIMM (RDRAM)
RDRAM Short for Rambus DRAM, a type of memory (DRAM) developed by Rambus, Inc.
In 1997, Intel announced that it would license the Rambus technology for use on its future motherboards, thus making it the likely de facto standard for memory architectures.
CLICK HERE for a picture and more information on RIMM Installation
SIMM and DIMM Sockets

SDRAM Chart
   168 DIMM (SDRAM)

Module StandardModule FormatChip TypeClock Speed
(MHz)
Cycles Per clockBus SpeedBus Width
(Bytes)
Transfer Rate
(MB/s)
PC66SDR DIMM10ns661668533
PC100SDR DIMM8ns10011008800
PC133SDR DIMM7ns133113381,066

DDR SDRAM Chart
184 DIMM (DDR-SDRAM)

Module StandardModule FormatChip TypeClock Speed
(MHz)
Cycles Per clockBus SpeedBus Width
(Bytes)
Transfer Rate
(MB/s)
PC1600DDR DIMMDDR200100220081,600
PC2100DDR DIMMDDR266133226682.133
PC2700DDR DIMMDDR333166233382,667
PC3200DDR DIMMDDR400200240083,200
PC4000DDR DIMMDDR500250250084,000
PC4300DDR DIMMDDR533266253384,266

DDR2 SDRAM Chart

 240 DIMM (DDR2-SDRAM)
Module StandardModule FormatChip TypeClock Speed
(MHz)
Cycles Per clockBus SpeedBus Width
(Bytes)
Transfer Rate
(MB/s)
PC2-3200DDR2 DIMMDDR2-400200240083,200
PC2-4300DDR2 DIMMDDR2-533266253384,266
PC2-5400DDR2 DIMMDDR2-667333266785,333
PC2-6400DDR2 DIMMDDR2-800400280086,400

 240 DIMM (DDR3-SDRAM)

Module StandardModule FormatChip TypeClock Speed
(MHz)
Cycles Per clockBus SpeedBus Width
(Bytes)
Transfer Rate
(MB/s)
PC3-6400DDR3
DIMM
DDR3-800400280086,400
PC3-8500DDR3
DIMM
DDR3-106653321,06688,500
PC3-10600DDR3
DIMM
DDR3-133366721,334810,670
PC3-12800DDR3
DIMM
DDR3-160080021,600812,800

RDRAM Chart
 232 RIMM (RDRAM)
Module StandardModule FormatChip TypeClock Speed
(MHz)
Cycles Per clockBus SpeedBus Width
(Bytes)
Transfer Rate
(MB/s)
RIMM 1200RIMM-16PC600300260021,200
RIMM 1400RIMM-16PC700350270021,400
RIMM 1600RIMM-16PC800400280021,600
RIMM 2100RIMM-16PC106653321,06622,133
RIMM 2400RIMM-16PC120060021,20022,400
RIMM 3200RIMM-32PC800400280023,200
RIMM 4200RIMM-32PC106653321,06624,266
RIMM 4800RIMM-32PC120060021,20024,800
RAM Desktop Installation

Note RAM Memory Sticks come in the following sizes
8MB, 16MB, 32MB, 64MB, 128MB, 256MB, 512MB, 1GB, 2GB, 4GB and 8GB

SIMM – Single Inline Memory Module Installation (30 or 72 pin)
1. Place SIMM in a 45 degree angle, push it upright to lock with the corresponding notch on the sides
2. Must be installed in same pairs
3. Must populate first two slots of the SIMM sockets in order for it to work
DIMM – Dual Inline Memory Module Installation (168, 184 or 240 pin)
1. The first thing you do is open the plastic retaining clips on each side of slots you are going to use.
2. Align the cut-out on the module pin connector with the engaging pin on the slot
3. Holding the module upright press down both ends.
4. When the module is correctly seated, retaining clips should lock automatically.
5. DIMM’s can be installed as a single pair (unless it states Dual Channel then you must install it in pairs)

RIMM – Rambus Inline Memory Module Installation (184 or 232 pin)

1. The first thing you do is open the plastic retaining clips on each side of slots you are going to use.
2. Align the cut-out on the module pin connector with the engaging pin on the slot
3. Holding the module upright press down both ends.
4. When the module is correctly seated, retaining clips should lock automatically.
5. Must populate all RIMM slots available
3. If not unpopulated slots must use CRIMM’s (Continuity Rambus Inline Memory Module)
Memory Troubleshooting
MEMORY (when installing use a ground strap because of ESD)
ESD (low and high humidity)
Mixed Memory usually equals fried memory
Parity Errors or ECC Errors (Memory correction errors)
SIMMS must be installed in pairs
RIMMS must be all installed in all slots or CRIMM's must be needed in unvacated RIMM slots
General Protection Fault (memory overwrite)
Not enough memory (computer is slow)
NMI -Non Maskable Interrupt will cause BSOD (Blue Screen of Death)
Multiple beeps when booting up check that memory is properly installed and working
No Video (Reseat memory)
Memory speeds set in BIOS/CMOS Setup
Virtual Memory (Page fault)
Chip Creep - Thermal expansion and contraction
Special Thanks to Rambus, Cosair, PNY, Viking, American Megatrends, Centon, Samsung, Crucial and Micron

Sunday, December 18, 2011

7 Portable Solar Laptop Chargers Worth Considering


Portable solar laptops chargers have been around for a little while now, and they offer a great way to extend the battery life of your laptop using renewable, clean energy. While we typically can't run our laptops solely on a portable solar charger the way we can when we plug into a wall outlet, we can get our batteries to last quite a bit longer, or recharge our laptop batteries while turned off.

However, portable solar chargers are not yet perfect, and have always had some sort of issue that makes them undesirable.

There are three key elements to the ideal solar charger: power, portability and price.
The consumer wants something that is strong enough to run or at least trickle charge their laptop enough to work on it while out and about, with the charger not being impossible to carry around, and also not costing an arm, a leg, and a first born child.

The options are getting better, but that doesn't mean choosing the right solar charger has gotten much easier. So we've scoured the market for the best choices in solar chargers, trying to make sure each option is reasonable regarding the three key elements, and put them here for you to make shopping around a little easier.

SolarRolls


This charger has proven itself a favorite among the outdoor types for backpacking and camping excursions.

Power: The SolarRoll comes in three sizes, depending on the output need. The roll that is powerful enough to charge a laptop has an output of 14 watts. It provides a trickle charge, or can provide a full charge in 5 to 10 hours, depending on the quality of sunlight. Multiple rolls can be linked together to get even more output.

Portability: SolarRolls, as the name says, rolls up, making it very easy to carry around. Also, its waterproof durability makes it safer to cart around and use on damp lawns, or café tables where drinks may be spilled. The large SolarRoll, which can suck up enough sunlight to power your laptop, is actually fairly large, measuring 12" wide by 57" long. So you need a pretty long surface area on which to unroll it in the sun. However, it only weighs 17 oz, and since it rolls up, it is easy to cart around.

Price: Ranges from $295 to $655 depending on the size. However, panel that is powerful enough to charge a laptop is the one priced at $655.

The Voltaic Generator

We've been eyeballing this handy solar bag for some time. It comes with battery packs to store energy, holding enough for a full laptop battery charge. It is also large enough to hold a 17" laptop inside.

Power: This is on the more powerful end, generating up to 15 watts. It takes about a day of charging, though.

Portability: The Generator is the essence of portability because it is, in fact, a bag. It is made of recycled PET, which makes it water resistant and light weight — though the bag still is 4.5 pounds. Add to that the weight of a laptop and that's a fairly hefty load.

Price: A tag of $599 puts it on par with other solar chargers. Given that it is also a handy carrying case, the price tag looks a bit more attractive.

Sunshine Solar Briefcase Charger Amorphous 13 Watt

This charger offers a briefcase style, but doesn't double as a briefcase. We talked about it a few years ago, and the fact that it's still around says something for its functionality.

Power: Offering 13 watts, this isn't the most powerful of options, though it is enough to extend the battery time of a laptop while in use.

Portability: While it is shaped like a briefcase, it doesn't carry like one. Rather, it weighs a hefty 9.25 pounds, putting a damper on running around with one during the day. Yet, portability is relative — perhaps you're looking for something to help you out while on a cruise or a remote area, and won't need to be carrying it much. So, the compact size (20.5" x 13" x 1.5" is a nice, small size to cart around.

Price: This charger is surprisingly inexpensive, coming in at about $160, though it is on sale for $90 through October 27th. However, there's a selection of accessories, like a charge regulator ($30), a four-panel connector cable ($18) and others that can bring up the total cost of the system. Still, it is relatively very cheap.

The Notepower

This charger has made previous appearances on TreeHugger, and has hung around for awhile, proving it's handiness among consumers.

Power: The Notepower comes in two options, a 15 watt and a 22 watt version.

Portability: Well, it’s a case, which gives it that two-in-one lovin’. However, unless you have a MacBook Air or other very thin computer, the 1.5” thickness of the folded case won’t carry your laptop. The case opens up and two solar panels fold out. The two panels of the 15 watt version opens up to 24.5” x 13.5” and the 22 watt version has three panels opening up to 37” x 16”. Both sizes are very workable for laying flat in an open space without needing an excessive amount of room. However, the 15 watt version weighs three pounds, and the 22 watt version weighs 6 pounds, which takes away some of the grab-n-go ease that we would love to see.

Price: The price on the Notepower is very reasonable, coming in at $262 for the 15 watt version and $386 for the 22 watt version. We don’t know how long it takes to gather a charge, so the lower price may be reflective of a lower energy generation efficiency.

Apple Juicz

The Apple Juicz is specific to MacBooks, including Pro and Air versions. It also comes with a pretty cool Element canvas bag.

Power: This is definitely on the higher end for chargability and offers some of the highest outputs. The smaller version can generate up to 18 watts and recharge an Air in 14 hours, the medium size up to 27 watts and recharge an Air in 8 hours, and the largest version up to 55 watts and can recharge an Air in 5 hours. Or, it can help extend your Mac battery for hours if charging while working.

Portability: The Apple Juicz is foldable, which makes it very easy to carry around. However, it’s pretty huge when unfolded. The smallest version unfolds to about 30”x30” and the largest is a picnic blanket-sized 60”x42”. So while it is easy to carry around, it might not be as easy to actually use while on the go.

Price: Like most everything Mac-related, these panels are on the steeper end of the price range, going from $500 to $1000 depending on what size you’re purchasing. However, you are getting some serious wattage from these suckers, so relatively speaking, they aren’t over-the-top-expensive.

Powergorilla & Solargorilla

The SolarGorilla offers awesome portability, but works best as a back-up battery charger, using the solar device to recharge the complimentary PowerGorilla back-up battery pack.

Power: The nice thing about this duo is that if you don’t have sun, you can still have portable power by charging up the PowerGorilla in a wall socket and waltzing off to wherever it is you need backup power. However, it takes about 5-6 hours of wall charging to fill ‘er up, which means even longer in the sun. The SolarGorilla generates on a small 10 watts in direct sunlight, and takes about 6 hours of strong sunlight to charge the PowerGorilla about half way (the PowerGorilla provides 2-6 hours of run time for your laptop with a full charge). But that smaller wattage is still pretty big for such a small device.

Portability: The SolarGorilla folds open from a durable hard case that is water resistant. About 10” x 7.8” x less than one inch thick, and weighing just 1.4 pounds, means that this is highly portable. However, you will have to carry both the SolarGorilla and the PowerGorilla.

Price: For the PowerGorilla and SolarGorilla combo, you’ll need to dole out about $580. You’ll also have to shell out a little more if you have a Mac, because you’ll need an Apple MagSafe airline adaptor and one of PowerGorilla’s universal car charger sockets to make it compatible.

A TreeHugger review of the SolarGorilla is underway, so we’ll have an update on this product after we get a better chance to play around with it.

Solaris 26

This is one of the top options for a solar charger when trying to find the best balance of the three Ps.

Power: This solar charger uses CIGS (Copper Indium Gallium diSelenide) technology, which basically means it is using highly efficient thin film tech to help get some serious power out of a small size. Indeed, it is capable of a 26 watt output. It is ideal for a trickle charge, or claims to be able to fully charge a laptop in 4-8 hours, depending on the quality of sunlight.

Portability: The whole thing folds up nicely into a little package, the same 8.5”x11” size of a piece of paper, and about an inch thick. When unfolded, it is only 21.5”x37.5”, which is relatively small compared to other foldable chargers. It is a little on the heavy side, weighing in at 28 oz, but not by any means too heavy to tote around.

Price: At $620, this is a decent deal for the portability and power provided by the charger, and is not expensive compared to other chargers available. However, we also found it at Sierra Solar for just $390 making it a really stellar deal.

More on Solar Charging for Devices:
$180 Portable Solar Power for Your Laptop, MP3 Player
The First Solar Computer Case that Charges Computers
Solar Powered Blogging on a Bike Trip