Table of Contents
Chapter One: Introduction
- 1.0 Background to Report
- 2.0 Objectives of this Report
- 3.0 Scope of this Report
- 4.0 Methodology of this Report
Chapter Two: Nano-memory Technology Assessment
In this chapter we will briefly review the key nanomemory solutions and how they work. For each of these technologies we will then discuss in depth how far the development work has come, which semiconductor and OEM firms are giving each of the technologies backing and which start-ups in each space are showing promise. University-based research should be discussed only where it shows promise for near-term commercialization. This chapter also contains an in-depth analysis of the commercial advantages that each nanomemory promises. These may include non-volatilty, rad-hardness, ability to create entirely new products, and cost advantages. We will also discuss where new materials will enable new/better production methodologies.
- 2.1 Storage Technology: Advantages, Disadvantages and Timeframes
- 2.2 Limitations of Existing Technologies
- 2.3 Magnetic Drives and Tapes
- 2.4 MRAM
- 2.5 FRAM
- 2.6 Holographic Memory
- 2.7 Non-Optical Phase Change Media/Ovonic Unified Memory
- 2.8 Molecular Memory
- 2.9 Nanotube RAM
- 2.10 MEMS-Based Memory
- 2.11 Polymer Memory
- 2.12 Other Types of Nanostorage
Chapter Three: Applications and Markets
This chapter covers the applications in which nanomemories are most likely to be used in the next eight years. The chapter looks at which types of conventional memory they will replace and where they will be used in entirely novel applications. In addition, this chapter discusses in depth which types of products are most likely to require nanomemories. The range of products considered includes notebook computers, home computers and consumer electronics, business computers and networking products, cell phones and other handheld communications devices, portable recoding and display/playback devices, control systems and embedded computers, sensors, smart cards, RFIDs and military/aerospace products.
- 3.1 Introduction
- 3.2 Mobile Computing
- 3.3 Home Computing and Consumer Electronics
- 3.4 Enterprise Computing and Telecommunications
- 3.5 Cell Phones, GPS and Other Hand-Held Communications Devices
- 3.6 Portable Recording and Display/Playback Devices
- 3.7 Control Systems and Embedded Computing
- 3.8 Sensors, Smart Cards, RFID and other Disposable Products
- 3.9 Military/Aerospace
Chapter Four: Eight-Year Forecasts
This chapter discusses the forecasting methodology and provides forecasts broken out by application and material type
- 5.1 A Justification for Forecasting
- 5.2 Forecasting Methodology
- 5.2.1 Addressable Markets
- 5.2.2 Competition Among Nanostorage Technologies
- 5.3 Eight-Year Forecasts of Nanostorage Technologies
- 5.3.1 MRAM
- 5.4.2 FRAM
- 5.4.3 Holographic Memory
- 5.4.4 Non-Optical Phase Change Media/Ovonic Unified Memory
- 5.4.5 Molecular Memory
- 5.4.6 Nanotube RAM
- 5.4.7 MEMS-Based Memory
- 5.4.8 Polymer Memory
- 5.4.9 Other Types of Nanostorage
| 
View Cart
