TSMC Libraries

TSMC Standard Cell Categories => Click on Library name to download

Tech	Process	Library Description	Download
45/40nm	45GS	General Purpose non-well biased with UPF and Multi-Voltage support - Nominal Vt	TCBN45GSBWP
		General Purpose non-well biased with UPF and Multi-Voltage support - Low Vt	TCBN45GSBWPLVT
		General Purpose non-well biased with UPF and Multi-Voltage support - High Vt	TCBN45GSBWPHVT
		General Purpose non-well biased with UPF, Multi-Voltage and MTCMOS support - Nominal Vt	TCBN45GSBWPCG
		General Purpose non-well biased with UPF, Multi-Voltage and MTCMOS support - Low Vt	TCBN45GSBWPCGLVT
		General Purpose non-well biased with UPF, Multi-Voltage and MTCMOS support - High Vt	TCBN45GSBWPCGHVT
		High Performance non-well biased with UPF and Multi-Voltage support - Nominal Vt	TCBN45GSBWP12T
		High Performance non-well biased with UPF and Multi-Voltage support - Low Vt	TCBN45GSBWP12TLVT
		High Performance non-well biased with UPF and Multi-Voltage support - High Vt	TCBN45GSBWP12THVT
		High Performance non-well biased with UPF, Multi-Voltage and MTCMOS support - Nominal Vt	TCBN45GSBWP12TCG
		High Performance non-well biased with UPF, Multi-Voltage and MTCMOS support - Low Vt	TCBN45GSBWP12TCGLVT
		High Performance non-well biased with UPF, Multi-Voltage and MTCMOS support - High Vt	TCBN45GSBWP12TCGHVT
	40LP	General Purpose non-well biased with UPF and Multi-Voltage support - Nominal Vt	TCBN40LPBWP
		General Purpose non-well biased with UPF and Multi-Voltage support - Low Vt	TCBN40LPBWPLVT
		General Purpose non-well biased with UPF and Multi-Voltage support - High Vt	TCBN40LPBWPHVT
		Coarse Grain MTCMOS Library - 9T - Nominal Vt	TCBN40LPBWPCG
		Coarse Grain MTCMOS Library - 9T - Low Vt	TCBN40LPBWPCGLVT
		Coarse Grain MTCMOS Library - 9T - High Vt	TCBN40LPBWPCGHVT
		High Performance non-well biased with UPF and Multi-Voltage support - Nominal Vt	TCBN40LPBWP12T
		High Performance non-well biased with UPF and Multi-Voltage support - Low Vt	TCBN40LPBWP12TLVT
		High Performance non-well biased with UPF and Multi-Voltage support - High Vt	TCBN40LPBWP12THVT
		Coarse Grain MTCMOS Library - 12T - Nominal Vt	TCBN40LPBWP12TCG
		Coarse Grain MTCMOS Library - 12T - Low Vt	TCBN40LPBWP12TCGLVT
		Coarse Grain MTCMOS Library - 12T - High Vt	TCBN40LPBWP12TCGHVT
65nm	G Plus	Nominal Vt	TCBN65GPLUS
		Low Vt	TCBN65GPLUSLVT
		High Vt	TCBN65GPLUSHVT
		Nominal VT with MTCMOS support	TCBN65GPLUSCG
		Low VT with MTCMOS support	TCBN65GPLUSCGLVT
		High VT with MTCMOS support	TCBN65GPLUSCGHVT
		General Purpose non-well biased with UPF and Multi-Voltage support - Nominal Vt	TCBN65GPLUSHPBWP
		General Purpose non-well biased with UPF and Multi-Voltage support - Low Vt	TCBN65GPLUSHPBWPLVT
		General Purpose non-well biased with UPF and Multi-Voltage support - High Vt	TCBN65GPLUSHPBWPHVT
	Low Power	Nominal Vt	TCBN65LP
		Low Vt	TCBN65LPLVT
		High Vt	TCBN65LPHVT
		Special Cells - Dual Flip-Flops - Nominal Vt	TCBN65LPDF
		Special Cells - Dual Flip-Flops - Low Vt	TCBN65LPDFLVT
		Special Cells - Dual Flip-Flops - High Vt	TCBN65LPDFHVT
		Nominal VT with MTCMOS support	TCBN65LPCG
		Low VT with MTCMOS support	TCBN65LPCGLVT
		High VT with MTCMOS support	TCBN65LPCGHVT
		General Purpose non-well biased with UPF and Multi-Voltage support - Nominal Vt	TCBN65LPHPBWP
		General Purpose non-well biased with UPF and Multi-Voltage support - Low Vt	TCBN65LPHPBWPLVT
		General Purpose non-well biased with UPF and Multi-Voltage support - High Vt	TCBN65LPHPBWPHVT
		General Purpose non-well biased with MTCMOS support - Nominal Vt	TCBN65LPHPBWPCG
		General Purpose non-well biased with MTCMOS support - Low Vt	TCBN65LPHPBWPCGLVT
		General Purpose non-well biased with MTCMOS support - High Vt	TCBN65LPHPBWPCGHVT
		High Performance non-well biased - Nominal Vt	TCBN65LPBWP12T
		High Performance non-well biased - Low Vt	TCBN65LPBWP12TLVT
		High Performance non-well biased - High Vt	TCBN65LPBWP12THVT
		High Performance non-well biased with MTCMOS support - Nominal Vt	TCBN65LPBWP12TCG
		High Performance non-well biased with MTCMOS support - Low Vt	TCBN65LPBWP12TCGLVT
		High Performance non-well biased with MTCMOS support - High Vt	TCBN65LPBWP12TCGHVT
		LP process with dual 1V/1.2V devices Nominal Vt	TCBN65LPG
		LP process with dual 1V/1.2V devices High Vt	TCBN65LPGHVT
		7 Tracks - non-well biased with UPF and Multi-Voltage support - Nominal Vt	TCBN65LPBWP7T
		7 Tracks - non-well biased with UPF and Multi-Voltage support - Low Vt	TCBN65LPBWP7TLVT
		7 Tracks - non-well biased with UPF and Multi-Voltage support - High Vt	TCBN65LPBWP7THVT
90nm	General Purpose (G)	Nominal VT with Multi-VDD support	TCBN90GHP
		Low VT with Multi-VDD support	TCBN90GHPLVT
		High VT with Multi-VDD support	TCBN90GHPHVT
		Nominal VT with MTCMOS support	TCBN90GHPCG
		Low VT with MTCMOS support	TCBN90GHPCGLVT
		High VT with Multi-VDD support	TCBN90GHPCGHVT
		Nominal Vt with Back Bias support	TCBN90GHPWB
		Low Vt with Back Bias support	TCBN90GHPLVTWB
		High vt with Back Bias support	TCBN90GHPHVTWB
		7 Tracks - non-well biased with Multi-VDD support - Nominal Vt	TCBN90GBWP7T
		7 Tracks - non-well biased with Multi-VDD support - Low Vt	TCBN90GBWP7TLVT
		7 Tracks - non-well biased with Multi-VDD support - High Vt	TCBN90GBWP7THVT
		Overdrive - Nominal Vt	TCBN90GHPOD
		Overdrive - Low Vt	TCBN90GHPODLVT
		Overdrive - High Vt	TCBN90GHPODHVT
	High Performance (GT)	Nominal Vt	TCBN90GTHP
		Low Vt	TCBN90GTHPLVT
		High Vt	TCBN90GTHPHVT
	Low Power (LP)	Nominal VT with Multi-VDD support	TCBN90LPHP
		Low VT with Multi-VDD support	TCBN90LPHPLVT
		High VT with Multi-VDD support	TCBN90LPHPHVT
		Ultra High Vt	TCBN90LPHPUHVT
		Nominal Vt with Back Bias support	TCBN90LPHPWB
		Low Vt with Back Bias support	TCBN90LPHPLVTWB
		High Vt with Back Bias support	TCBN90LPHPHVTWB
		High Density with Back Bias support - Nominal Vt	TCBN90LPHDBWP
		High Density with Back Bias support - Low Vt	TCBN90LPHDBWPLVT
		High Density with Back Bias support - High Vt	TCBN90LPHDBWPHVT
		High Density with Back Bias support - Ultra Low Vt	TCBN90LPHDBWPULVT
		High Density with Back Bias support - Nominal Vt	TCBN90LPBWP7T
		High Density with Back Bias support - Low Vt	TCBN90LPBWP7TLVT
		High Density with Back Bias support - High Vt	TCBN90LPBWP7THVT
		Nominal VT with MTCMOS support	TCBN90LPHPCG
		Low VT with MTCMOS support	TCBN90LPHPLVTCG
		High VT with MTCMOS support	TCBN90LPHPHVTCG
130nm	General Purpose	Nominal Vt	TCB013GHP
		Low Vt	TCB013GHPLVT
		High Vt	TCB013GHPHVT
	Low Voltage	Nominal Vt	TCB013LVHP
		High Vt	TCB013LVHPHVT
		Over Drive 1.2V	TCB013LVHPOD
		Over Drive 1.2V, High Vt	TCB013LVHPODHVT
	Low Power	Nominal Vt	TCB013LPHP
		Low Vt	TCB013LPHPLVT
150nm	General Purpose	Nominal Vt	TCB015GHD
	Low Voltage	Nominal Vt	TCB015LVHD

TSMC Standard I/O Categories => Click on Library name to download

Tech	Process	Core Voltage	I/O Voltage	Configuration	Download
45nm	Bond Pads	N/A	N/A	Bond Pads	TPBN45V
	General Purpose	0.9V	2.5V; over-drive to 3.3V	Staggered Universal Standard I/O	TPFN45GSGV2OD3
			1.8V	Staggered Universal Standard I/O	TPFN45GSGV18
			1.8V; 2.5V tol	Staggered Universal Standard I/O	TPZN45GSGV18
65nm	Low Power	1.2V All	2.5V; 3.3V tol.	Staggered Universal	TPZN65LPGV2
			All	Linear and Staggered Universal Pads	TPBN65V
			2.5V	Linear Universal	TPDN65LPNV2
			2.5V; 3.3V tol.	Linear Universal	TPDN65LPNV2OD3
90nm	General Purpose	1.0V	3.3V; 5V tol.	Staggered Universal	TPZN90GV3
	Bond Pads	N/A	N/A	In-Line and Staggered Universal	TPBN90V
	Low Power	1.2V	3.3V	In-Line	TPDN90LPNV3
130nm	General Purpose	1.2V	2.5V	Linear Universal	TPD013NV2
			3.3V	Linear Universal	TPD013NV3
			3.3V; 5V tol.	Staggered Universal	TPZ013GV3
	Low Power	1.5V	2.5V	Linear Universal	TPD013LPNV2
			3.3V	Linear Universal	TPD013LPNV3
	Low Voltage	1.0V-OD	3.3V; 5V tol.	Staggered Universal	TPZ013LODGV3
	Bond Pads	All	All	Staggered Universal Pads	TPB013GV
				Linear Universal Pads	TPB013NV

Root All Android 2.1 HTC Phone

How-TO Root the
HTC Slide
HTC Aria + See this Link > http://forum.xda-developers.com/showthread.php?t=708233
&
Works With ALL 2.1 HTC PHONE"S

*Update*
If you Have Trouble Finding Device.. Pull the SDCard, Once Found & In recovery Put sdcard back in!!

First things First... Power Off the Slide

Download This Package > Slide Root.zip

kingofyo1's Video How-to > http://www.youtube.com/watch?v=sVjoKvy-YZg

Thanks to brokensanity for Re-writing my How-to!!

How-TO Root the Slide

First!! - Go to Settings > Application > Development and turn on USB Debugging. This should save you headaches.

NOW… Power Off the Slide

Download This Package > Slide Root.zip



Step 1.
Place the Contents of "Slide Root.zip" into your Android SDK Tools folder.

Step 2.
Open Command Prompt or Terminal and CD to the SDK/Tools Directory.

Step 3.
Power on the Slide into the bootloader by Holding Down ( Volume Down + Power Button )

Step 4.
Now run your loop file from the prompt (either type "loop" in windows or "./loop.sh" in a *nix like)

Step 5.
Once your loop is running in your prompt, select Recovery from the bootloader menu.

Step 6.
When recovery loads, you should Have an Offline Device. You can use ctrl+c to stop your script & see.
If this doesn't happen, Power Off and try again..

Step 7.
Un-plug your USB cable from the back of your phone & Plug it back in for it to Detect ADB Correctly!!! This is an important step. At this point you can adb devices to see if you can see your device and that it is in recovery mode.

Step 8.
Select Update.zip from the menu. (This will fail, but we already know that! Select it anyway).

Step 9.
adb push ota.zip /sdcard/update.zip (*nixlike users add a ./ in front of all terminal commands please.)

Step 11.
adb push slideroot.zip /sdcard

Step 12.
This is Very important!! Have this Command ready in your prompt before applying update.zip again!!

adb push update.zip /sdcard

step 13.
Hit run update.zip, as soon as you see a Little Bar appear under the text push Enter to execute the command in your prompt (adb push update.zip /sdcard )

Step 14.
In successful, you should see Clockwork Recovery. If unsuccessful, repeat steps 12 & 13.

Step 15.
Now, go to the Partitions menu and Mount System

step 16.
Go back one level & select install any zip from sdcard. Select slideroot.zip & apply update from zip (This will finish the Root process).

Step 17.
Reboot your phone & wait for it to load completely. To confirm that your slide is connected as a device use the command adb devices. If this works, you will see it as a device. Your prompt will say something like:

$ ./adb devices
List of devices attached
HT05YUP12710 device

Step 18.
adb install Superuser.apk (If this looks like it works, but says it cannot locate directories, make sure you can find your device using adb devices… If things still don't work, my best advice is to start over)

Step 19.
After Superuser is installed try to use adb to shell to your device.

adb shell
you will get a $

Then type su

Superuser should pop-up asking if you give permission, do so.
Your $ should turn into a #. If so, you have root.

Congrats.


That's it, you now Have Root... I'll clean this up a bit, But it's the same Root method as the HTC Incredible... I Just added Su & fix the Script, Plus figuring out how-to get it to write to system to Paul O'Brien:
Koushik K. Dutta: already made Recovery Update..



Special Thanks to:

Paul O'Brien:
Koushik K. Dutta:
&
The Guys using the Incredible OTA Spoofing Method
&
ChiefzReloaded for Huge amount of Suggestion & Brain Storming.

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Watching DVDs in Linux by installing one library

The only thing you have to do really is add in a repository for Ubuntu and install the playback/codec that you need for Ubuntu or Salix. Since most people I know use Ubuntu or Linux Mint, these steps remain the same. Open up the terminal, then copy and paste the following line:

sudo wget –output-document=/etc/apt/sources.list.d/medibuntu.list http://www.medibuntu.org/sources.list.d/$(lsb_release -cs).list && sudo apt-get –quiet update && sudo apt-get –yes –quiet –allow-unauthenticated install medibuntu-keyring && sudo apt-get update

What this does is that it adds the repository as well as the GPG key that says it can be trusted and installed from. This is only for Ubuntu and spinoffs of Ubuntu, seeing as Salix has the component we need in their default repositories. Before closing the terminal, issue this command:

sudo apt-get install libdvdcss2 w32codecs -y

which will then install the DVD playback as well as media playback of non-standard formats.