In this paper we will present an on-chip method for testing high performance memory devices, that occupies minimal area and retains full flexibility. This is achieved through microcode test instructions and the associated on-chip state machine. In addition, the proposed methodology will enable at-speed testing of memory devices. The relevancy of this work is placed in context with an introduction to memory testing and the techniques and algorithms generally used today
Memory requirements are constantly increasing in System on Chip (SoC) devices. To keep on with this...
Newer defects in memories arising from shrinking manufacturing technologies demand improved memory t...
The design and architecture of a reconfigurable memory BIST unit is presented. The proposed memory B...
In this paper we will present an on-chip method for testing high performance memory devices, that oc...
Abstract- In this paper we will present an on-chip method for testing high performance memory device...
Abstract—As there are increasing functionalities in modern system-on-chip (SOC) design, the amount o...
[[abstract]]A high-speed Built-In Self-Test (BIST) architecture for Dynamic Random Access Memo...
In this paper a modified architecture for at-speed scan testing is presented. This new architecture ...
Abstract. We have introduced a low-cost at-speed BIST architecture that enables conventional micropr...
Multiport memories are widely used as embedded cores in all communication system-on-chip devices. Du...
Memory Built-in Self Test (MBIST) or as some refer to it array as built-in self-test is an amazing p...
System on Chip devices include an increasing number of embedded memory cores, whose test durin...
Testing embedded memories in a chip can be very challenging due to their high-density nature and man...
Abstract—Memory is increasingly important because of the high density of current memory chips. W...
[[abstract]]Memory testing is becoming the dominant factor in testing a system-on-chip (SOC), with t...
Memory requirements are constantly increasing in System on Chip (SoC) devices. To keep on with this...
Newer defects in memories arising from shrinking manufacturing technologies demand improved memory t...
The design and architecture of a reconfigurable memory BIST unit is presented. The proposed memory B...
In this paper we will present an on-chip method for testing high performance memory devices, that oc...
Abstract- In this paper we will present an on-chip method for testing high performance memory device...
Abstract—As there are increasing functionalities in modern system-on-chip (SOC) design, the amount o...
[[abstract]]A high-speed Built-In Self-Test (BIST) architecture for Dynamic Random Access Memo...
In this paper a modified architecture for at-speed scan testing is presented. This new architecture ...
Abstract. We have introduced a low-cost at-speed BIST architecture that enables conventional micropr...
Multiport memories are widely used as embedded cores in all communication system-on-chip devices. Du...
Memory Built-in Self Test (MBIST) or as some refer to it array as built-in self-test is an amazing p...
System on Chip devices include an increasing number of embedded memory cores, whose test durin...
Testing embedded memories in a chip can be very challenging due to their high-density nature and man...
Abstract—Memory is increasingly important because of the high density of current memory chips. W...
[[abstract]]Memory testing is becoming the dominant factor in testing a system-on-chip (SOC), with t...
Memory requirements are constantly increasing in System on Chip (SoC) devices. To keep on with this...
Newer defects in memories arising from shrinking manufacturing technologies demand improved memory t...
The design and architecture of a reconfigurable memory BIST unit is presented. The proposed memory B...