an established international industry.

The copying process begins by

stripping all the parts off the board

to identify parts. The PCBs can then

be delaminated into their individual

layers and imaged in order to

reconstruct a schematic diagram of

the board. This reverse engineering

industry also includes companies that

offer to extract the code from your

microcontrollers; so not even the

firmware running on the boards is

safe from cloning.

ASICs, at least modern ones, turn out

to be your best safeguard

These issues have led technology

companies to revert to ASICs

(Application Specific Integrated

Circuits) as a means of physically

implementing and protecting their IP.

But in older IC technologies, meaning

those with one or two metal layers

and 1um-2um critical dimensions, this

still didn’t prove secure. After package

removal (also known as “depotting”)

all features could easily be seen using

optical imaging equipment to take

high resolution images. The cloning

process could then proceed using

similar methods as PCB cloning.

With more recent foundry fabrication

technologies using critical dimensions

of 180nm and less, this is much, much

more difficult. This is not only due to

the difficulties of imaging these sub-

wavelength dimensions using optical,

Number of ASIC projects as a function of technology

node. Source imec IC-link database.

wide-field microscopes, there are also

many more metal interconnect layers,

larger numbers of logics gates, plus

analog blocks, Radio Frequency (RF)

blocks, memory, MEMs, inductors and

other devices integrated on-chip. All

these factors combine to make ASIC

cloning extremely time consuming

and ultimately uneconomic for all but

the biggest companies.

A typical example of a fast-innovating

technology company is Belgium-

based Van de Wiele, a global leader in

advanced equipment and specialized

services for the textile manufacturing

industry. Van de Wiele has repeatedly

suffered from reverse engineering

of the boards used to control yarn

systems. R&D manager Hans Desmet

admits that “the first machine we

released that used ASIC controllers

was the first one that was not copied”.

The IoT offers a huge opportunity for

nimble, fast-moving innovation

The accelerating trend of technology

innovators to use ASICs for IP

protection has been driven by the

recent confluence of three key drivers.

First, there has been an explosion

in applications for what has been

loosely grouped under the heading

of the Internet of Things (IoT). This

has enabled companies with leaner

decision making cycles and closer

connections to the latest trends to

move more rapidly to market than

larger companies.

Second, while the volume of chips

needed to address the IoT market

is huge, the fragmentation of the

market into a large number of

potential IoT applications means

that the production volumes of

individual designs will be relatively

small. This makes it difficult for large

companies to compete on their ability

to ramp large production volumes.

In many ways large companies have

outsourced innovation to technology

SMEs.

Finally, and perhaps most importantly,

one of the key characteristics of

IoT applications is that they require

advanced but not necessarily leading-

edge silicon technology. This is

primarily due to the fact that some

form of wireless communication

is required and the corresponding

36 l New-Tech Magazine Europe