SBIR-STTR Award

Radiation-Hardened, Resistive Random Access Memory
Award last edited on: 2/1/2013

Sponsored Program
SBIR
Awarding Agency
DOD : AF
Total Award Amount
$849,916
Award Phase
2
Solicitation Topic Code
AF103-093
Principal Investigator
Robert Patti

Company Information

Tezzaron Semiconductor Corporation

1415 Bond Street Suite 111
Naperville, IL 60563
   (630) 505-0404
   info@tezzaron.com
   www.tezzaron.com
Location: Multiple
Congr. District: 06
County: DuPage

Phase I

Contract Number: ----------
Start Date: ----    Completed: ----
Phase I year
2011
Phase I Amount
$99,997
Tezzaron intends to develop a nonvolatile low latency memory based on 3D assembly of RRAM memory cell wafers with CMOS logic wafers. The very high density 3D interconnect that Tezzaron can produce allows circuitry to be manufactured on different wafers in different semiconductor processes and then integrated into a single polylithic substrate that acts as if were a single circuit. The combination of traditional CMOS and RRAM technology in a 3D integrated circuit allows exploitation of a new higher risk technology such as RRAM but with the confidence of using well known circuit design techniques and existing processes for much of the new component. The 3D integrated circuit approach also addresses another critical concern which is yield. Newer process technologies are plagued by low yields stemming from inferior material purity. This is a know issue with many experimental materials employed in RRAMs. 3D integration permits enhanced repair and redundancy due to the use of the high speed CMOS logic process and the additional wiring capacity 3D integration affords. This is a requirement for commercialization of large high density memories fabricated with any of the possible RRAM technologies.

Benefit:
It is anticipated the final device will provide a high density nonvolatile memory with high radiation tolerance. The development of a low latency random access nonvolatile memory developed with 3D integration addresses the commercial issues that are limiting acceptance RRAM technology. The technology will have direct use in many commercial and consumer devices, especially handheld devices such as smart phones and PDAs.

Keywords:
Radiation Hardened, Pcm, 3d, Nonvolatile Memory, Resistive Memory, 3d Integrated Circuit

Phase II

Contract Number: ----------
Start Date: ----    Completed: ----
Phase II year
2012
Phase II Amount
$749,919
Tezzaron proposes to develop and demonstrate a 64Mb 3D integrated MRAM device comprising one non-volatile memory cell layer and one radiation hardened I/O logic and control layer. This memory device will address the industry’s next generation needs for nonvolatile memory density and also, because of its virtually unlimited wearout lifetime, act as next main memory, reducing overall component count, size, weight and power. The device will have the capacity for expansion up to 1Gb with the addition of more memory cell layers. This program will ultimately produce components for use in space-based systems as well as other DoD systems.

Benefit:
The proposed device significantly increases the density of aerospace/space/military hardened non-volatile memory. The MRAM memory device at the new propose range of device capacities to 1Gb would also allow consolidation of the volatile and non-volatile memories reducing board space and power. This provides fundementally increased computing capability for space applications.

Keywords:
RRAM, MRAM, 3D integrated circuit, non-volatile, memory, radiation hardened, RAD hard