STMicroelectronics Standard Technology offers at CMP in 2015 Deep Sub‐Micron, SOI and SiGe Processes http://cmp.imag.fr CMP Annual users meeting, 5 February 2015, PARIS 1 CMP Process Portfolio From ST STMicroelectronics Technology offers at CMP : 160nm BCD8SP 130nm CMOS : HCMOS9GP 130nm SOI : H9SOI‐FEM 130nm SiGe : BICMOS9MW 1994 at CMP 130nm HV‐CMOS : HCMOS9A 65nm CMOS : CMOS065LPGP 28nm FDSOI : 28FDSOI 2015 at CMP ST 0.25µ AMS 0.35µ 18k gates/mm2 35k gates/mm2 AMS 0.6µ 3k gates/mm2 AMS 0.8µ 1.2k gates/mm2 ST 0.18µ 80k gates/mm2 ST 130nm 180k gates/mm2 ST 90nm 400k gates/mm2 ST 65nm 800k gates/mm2 ST 40nm ST 28nm 1600k gates/mm2 3M gates/mm2 1/1000 x gate delay (from ns to ps) 1/1000 x power consumption (from µW/MHz to pW/MHz) 1300 x density integration CMP Annual users meeting, 5 February 2015, PARIS 2 Max Frequency by Technology Node Frequency (GHz) 30 Ring Oscillator : Using minimum transistors size With no parasitics. 24 25 20 15 15 9 10 5 7 3,5 0 Tech. Node 0.35um 0.18um 130nm 65nm CMP Annual users meeting, 5 February 2015, PARIS 28nm FDSOI 3 Deep Sub‐micro 130nm CMOS CMOS 130nm HCMOS9GP : General Purpose : 130nm mixed A/D/RF CMOS SLP/6LM (triple Well) Gate length (130nm drawn). 6 Cu metal layers. Power supply: 1.2 V Multiple Vt transistor offering (Low Leakage, High Speed) Threshold voltages : VTN = 500/380 mV, VTP = 480/390 mV 6 levels Cu Metal (Cross Section View) Courtesy STMicroelectronics Memories SPRAM/ DPRAM / ROM available free of charge on request 4 MPW runs organised in 2015 : 23rd February, 1st June, 1st September, 16th November Starting Price : 2200€/mm² for 25 samples Turnaround : 16 weeks 255 Centers received the design rules and design kits. 20 circuits manufactured in 2014 (9 circuits in 2013) Applications : General purpose Analog/Digital/ RF applications 4 SiGe : 130nm CMOS CMOS 130nm BiCMOS9MW : MilimeterWave process BICMOS9MW technology is using 0.13μm HCMOS9GP as base process. Gate length (130nm drawn). SiGe‐C bipolar transistor (fT around 230GHz) 6 Cu metal layers. Thin lower metal layers and Thick upper metal layers. CMOS devices for 1.2V applications. 2.5V Capable I/O's. Damascene Copper for metal 1 to last metal. High performance NPN bipolar transistor. Medium voltage NPN bipolar transistor. Memories SPRAM available free of charge on request 4 MPW runs organised in 2015 : 23rd February, 1st June, 1st September, 16th November Starting Price : 2900€/mm² for 25 samples Turnaround : 16 weeks 60 Centers received the design rules and design kits. 12 circuits manufactured in 2014 (16 circuits in 2013) Applications : Millimeter‐Wave applications (frequencies up to 77GHz for automotive radars), WLAN, Optical communications systems driving data rates up to 80Gbits/s.5 Deep Sub‐micro 130nm CMOS CMOS 130nm HCMOS9A : Mixed Digital / Analog / Energy Management : 130nm mixed A/D/RF CMOS SLP/4LM (triple Well) Gate length (130nm drawn). 4 Cu metal layers. Thick M4 Low k inter‐level dielectric Cross section view - Bipolar HV transistor Power Management. Operating voltages : 1V2 GO1, 4V8 for GO2, 20V for HV with DGO option. Single Gate Oxide option also qualified : No GO1 1V2 CMOS Specific Devices : N&P 20V Drift MOS with 85A gate oxide, MIM 5fF capacitor Memories SPRAM / ROM available free of charge on request 1 MPW run organised in 2015 : 1st June Starting Price : 2200€/mm² for 25 samples Turnaround : 11 weeks 14 Centers received the design rules and design kits. 2 circuits manufactured in 2014 (2 circuits in 2013) Applications: Implantable devices, Robots/drones, Energy harvesting applications, Sensors wireless, Connected devices/Internet of thing(cell phones), Autonomous systems 6 SOI :Deep Sub‐micro 130nm CMOS CMOS 130nm H9‐SOI‐FEM : Front‐End Module: 130nm mixed A/D/RF CMOS SLP/M3TCTA (Double Thick Metal Stack) 200mm SOI wafers with high resistive (HR) substrate and Trap Rich SOI. 4 Cu metal layers. Power supply: 1.2 V High Linearity MIM capacitor (2fF/mm2) 5.0V NLDMOS & PLDMOS HCMOS9‐SOI process stopped and replaced by H9SOI‐FEM • Address a cost‐driven application • Performances improvement • Capability to address all FEM applications (Switches, LNA, PA) 2 MPW run organised in 2015 : 11th May and 23rd November Starting Price : 2200€/mm² for 25 samples Turnaround : 16 weeks 13 Centers received the design rules and design kits. 2 circuits manufactured in 2014 (6 circuits in 2013) Applications: Radio receiver/transceiver, Cellular, GPS receivers, Automative keyless systems 7 SOI : Deep Sub‐micro 130nm CMOS CMOS 130nm H9‐SOI‐FEM : Front‐End Module: The design kit is provided with fully characterized devices: Switching Power Application Low Noise Amplifier CMP Annual users meeting, 5 February 2015, PARIS 8 Deep Sub‐micro 160nm BCD8SP CMOS 160nm BCD8SP : Bipolar‐CMOS‐DMOS Smart Power: NEW 160nm Mixte Analog / Digital Bipolar‐CMOS‐DMOS 4LM Gate length (160nm drawn). 4 Cu metal layers. Thick Power M4 Operating voltages : 1.8V ‐ 5V : Digital & Analog 10V – 42V : Power MOS Analog + Digital + Power & HV on one chip High Voltage to drive external loads Analog block to interface « external world » to the digital systems Digital Core for signal processing. Memories SPRAM/ DPRAM / ROM available free of charge on request Complementary presentation by Mr. Stephane Bach is following. 2 MPW runs organised in 2015 : 15th June and 16th November Starting Price : 2600€/mm² for 25 samples Turnaround : 18 weeks Applications: Hard Disk Drivers, Power Combo, Motor Drivers, DC‐DC converter, Power 9 Management. Deep Sub‐micro 65nm CMOS CMOS 65nm CMOS65LPGP : Low Power General Purpose: 65nm mixed A/D/RF CMOS SLP/6LM (triple Well) Gate length (65nm drawn). 7 Cu metal layers. Low k inter‐level dielectric (k=2,9) Power supply: 2.5V, 1.8V, 1.2V, 1V Multiple Vt transistor offering A 55 million transistor many-core chip Courtesey of B.BAAS et al, University of California, Davis High Density of integration : 800kgates/mm² Memories SPRAM/ DPRAM / ROM available free of charge on request 3 MPW runs organised in 2015 : 16th February, 15th June and 19 October Starting Price : 6000€/mm² for 25 samples Turnaround : 16 weeks 310 Centers received the design rules and design kits. 43 circuits manufactured in 2014 (74 circuits in 2013) Applications: General purpose, Analog/RF capabilities 10 FDSOI : Deep Sub‐micro 28nm CMOS CMOS 28nm FDSOI : Fully depleted Silicon On Insulator: 28nm mixed A/D/RF CMOS SLP/10LM (triple Well) Gate length (28nm drawn). 10 Cu metal layers (6 thin + 2 medium + 2 thick). Low leakage (High Density) SRAM using Low Power core oxide IO supply voltage : 1,8 V using the IO oxide Ultra low k inter‐level dielectric Process options : • MIM : Metal‐Insulator‐Metal capacitance • OTP (anti‐Fuse) : Capacitance + Drift MOS transistor 4 MPW runs organised in 2015 : 12th January, 4th May, 27th June, 26th October Starting price : 12000€/mm² for 25 samples 4mm² block price : 36k€ for 25 samples Turnaround : 16 weeks 140 Centers received the design rules and design kits. 39 circuits manufactured since 2013 Applications: Low power and high performance applications 11 FDSOI : Deep Sub‐micro 28nm CMOS CMOS 28nm FDSOI : Fully depleted Silicon On Insulator: Migration from 28nm LP bulk to 28nm FDSOI : • No disruptive process, no disruptive design • Seamless migration • Same layers numbers and names, allow to load a bulk design in a FDSOI design environment • Common design rules platform • Bulk devices can be co‐integrated with FDSOI devices Standard Cells Libraries : • CORE cells libraries includes : o CORE_LL : Low Power LVT (High Density LP / High Speed LP) o CORE_LR : Low Power RVT (High Density LP / High Speed LP) o CLOCK (LL and LR) : Buffer cells for clock tree synthesis o PR : Place and route filler cells • IO Cells Libraries : o Digital o Analog o Filp‐Chip bumps o ESD Memories SPRAM/ DPRAM / ROM available free of charge on request CMP Annual users meeting, 5 February 2015, PARIS 12 Overview of the submission process for CMP users Design transfer Wafers shipment Foundry Users ‐ Research Laboratories ‐ Educationnal Universities ‐ Industrial Entities ‐ Data checking (DRC) ‐ Help for corrections (Report) ‐ Data preparation (Sealring/Tiling) ‐ Supports 11 to 16 weeks Transfer of validated designs Report for corrections 2 to 3 weeks Process 0,35 CMOS 130nm CMOS 90nm CMOS 65nm CMOS 40nm CMOS 28nm CMOS 28nm FDSOI Nbr. Of DRC RuleChecks 400 750 830 1650 3700 4650 5250 13 Thank you! CMP Annual users meeting, 5 February 2015, PARIS 14
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