JP2001102458A - Method and device for automatic arrangement wiring - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an automatic arrangement wiring device together with a layout wiring method wherein the destruction by charge on wiring is appropriately suppressed. SOLUTION: An element block 1B which is an object of automatic layout wiring is prepared, and layout wiring is executed with the element block. Here, a property for suppressing destruction of wiring by a charge which relates to the element block 1B is provided, for layout wiring according to the property. As a property related to the element block 1B, not only a property element corresponding to a gate area but also that corresponding to the area of wiring 4 in the element block 1B are provided.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic placement and routing apparatus for designing a semiconductor integrated circuit and a semiconductor integrated circuit formed using the automatic placement and routing apparatus.

[0002]

2. Description of the Related Art In the process of manufacturing a semiconductor integrated circuit,
It is necessary to take measures against the so-called antenna effect. The antenna effect is a phenomenon in which charge is generated in a manufacturing process using plasma, and the transistor gate oxide film is thereby destroyed.

FIG. 1 shows a wiring subject to the antenna effect. In the case of a three-layer wiring as shown in FIG. 1, as a measure against the antenna effect, a measure has conventionally been taken to limit the area of the wiring connected to the transistor gate oxide film (the target area S of the antenna effect indicated by a thick frame in FIG. 1). I was

Next, two problems of the antenna effect countermeasure function of the conventional automatic placement and routing apparatus will be described with reference to FIG. In the figure, 1A and 1B are standard cells, 2 and 3 are input pins,
Reference numeral 4 denotes a wiring in the standard cell 1B.

When considering the antenna effect, suppose that the gate size of the standard cell 1B is "1", the area of the wiring portion 6 from the input pin 2 to the gate of the input pin 3 is "9", and the standard cell 1B is connected to the gate. Assuming that the wiring area of the wiring 4 is “1”, the antenna ratio indicating the degree of the antenna effect can be obtained by the following formula (1). Here, the sum of the area of the wiring portion 6 connected from the input pin 2 to the gate of the input pin 3 and the wiring area of the wiring 4 in the standard cell 1B connected to the gate is defined as a wiring area S connected to the gate. Antenna ratio = wire area connected to gate S / gate size Expression (1) That is, the antenna ratio of the standard cell 1B is (1 + 9) / 1.
= 10.

However, with the antenna effect correspondence function of the conventional automatic placement and routing function, only the gate size can be given as a property related to the standard cell.
Since the area “1” of the wiring 4 portion in B is not considered, if the gate size of the property is given as “1”, the antenna ratio in the standard cell 1B is 9/1 = 9, which is the actual value “10”. The result is different.

Therefore, conventionally, the property is set by adding an extra area of the wiring portion, but this has caused a pseudo error. Another problem is that
This means that the work of defining the input pins with the uppermost aluminum layer is performed manually, which takes time and causes errors.

[0008]

SUMMARY OF THE INVENTION An object of the present invention is to provide an automatic placement and routing apparatus and a placement and routing method that can accurately suppress destruction of wiring due to charge.

[0009]

In the automatic placement and routing apparatus according to the first aspect of the present invention, an element block as an object of automatic placement and routing is created, and the placement and routing of this element block are performed. In the case where a property for suppressing destruction due to charge is given and placement and wiring is performed according to this property, not only a property element corresponding to a gate area but also an element block connected to the gate is used as a property related to the element block. Has a function of also providing a property element corresponding to the wiring area of the above.

In the automatic placement and routing apparatus according to the second invention,
When an element block as an object of automatic placement and routing is created and placement and routing is performed on this element block, a property for the element block for suppressing destruction due to charge in wiring is given to an input pin provided in the element block. In the arrangement and wiring performed according to this property, not only a property element according to a gate area but also a property according to a wiring area in an element block connected to the gate as a property of an input pin provided in the element block. It has a function of giving elements as well.

In the automatic placement and routing apparatus according to the third invention,
In creating an element block composed of standard cells as a target of automatic placement and routing, and performing placement and routing on the standard cells, regarding the standard cells for suppressing destruction of input pins provided on the standard cells due to charge in wiring. Of the input pin provided in the standard cell, not only the property element according to the gate area, but also the wiring area in the element block connected to the gate. Has a function of also providing a property element corresponding to.

In an automatic placement and routing apparatus according to a fourth aspect,
Creating an element block consisting of a hard macro block as an object of automatic placement and routing, and performing placement and routing on the hard macro block, the input pin provided in the hard macro block for suppressing destruction due to charge in wiring on the input pin In a device which provides a property for a hard macro block and performs placement and routing in accordance with the property, the property of the input pin provided in the hard macro block is not only a property element corresponding to a gate area but also a connection to the gate. It has a function of giving also a property element according to the wiring area in the element block.

In the automatic placement and routing apparatus according to a fifth aspect,
As a property related to the element block, not only a property element corresponding to a gate area, but also a property element corresponding to a wiring area in an element block connected to the gate is given, and the property related to the element block is a countermeasure for an antenna effect. If the values are necessary for execution, the arrangement and wiring are changed back to a state effective for antenna effect countermeasures.

In the automatic placement and routing apparatus according to a sixth aspect,
In the fifth invention, as a property related to the element block, not only a property element according to a gate area but also a property element according to a wiring area in an element block connected to the gate is provided. If the property is the value required to execute the antenna effect countermeasure, split the wiring part that requires the antenna effect countermeasure, and insert the wiring part located on the top layer between the divided wiring parts. It was done.

In the automatic placement and routing apparatus according to a seventh aspect,
Create an element block having input / output pins as the target of automatic placement and routing, and automatically recognize the attributes of each input / output pin in those that place and route this element block.
If the attribute of the pin is the attribute as an input pin,
It has a function of automatically setting the pin layer to the uppermost layer.

In the automatic placement and routing apparatus according to an eighth aspect,
An element block having an input pin as an object of automatic arrangement and wiring is created, and the element block is arranged and wired. The element block has a function of adding a diffusion contact to the input pin.

In the automatic placement and routing apparatus according to the ninth aspect,
Create an element block having input / output pins as the target of automatic placement and routing, and automatically recognize the attributes of each input / output pin in those that place and route this element block.
If the attribute of the pin is the attribute as an input pin,
It has a function of automatically adding a diffusion contact.

In the placement and routing method according to a tenth aspect of the present invention, an element block to be placed and routed is created, and when this element block is placed and routed, the element block is prevented from being damaged by charge in the wiring. When a property is given and placement and routing is performed according to this property, not only a property element according to the gate area but also a property element according to the wiring area in the element block connected to the gate as the property relating to the element block. Is provided, and the placement and routing is performed by the property including these property elements.

[0019] In the placement and routing method according to the eleventh aspect of the present invention, not only a property element according to a gate area but also a property element according to a wiring area in an element block connected to the gate is provided as a property related to the element block. And when the property related to the element block is a value necessary for executing the antenna effect countermeasure,
The arrangement and wiring are changed back to a state effective for the antenna effect countermeasures.

In the placement and routing method according to the twelfth aspect, as the property relating to the element block, not only a property element according to a gate area but also a property element according to a wiring area in an element block connected to the gate. And when the property related to the element block is a value necessary for executing the antenna effect countermeasure,
A wiring portion that requires an antenna effect countermeasure is divided, and a wiring portion arranged in the uppermost layer is inserted between the divided wiring portions.

[0021] In the placement and routing method according to the thirteenth aspect, an element block having input / output pins as an object of placement and routing is created, and at the time of placement and routing of this element block, the attribute of each input / output pin is recognized. When the attribute of the pin is an attribute as an input pin, the layer of the pin is set as the uppermost layer.

In the placement and routing method according to the fourteenth aspect, an element block having input pins as an object of placement and routing is created, and when this element block is placed and wired, the attribute of each input / output pin is determined. When the input pin has the attribute, a diffusion contact is added to the input pin.

[0023]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1 First Embodiment A first embodiment of the present invention will be described with reference to FIGS. FIG.
Shows a wiring portion to be subjected to the antenna effect in the embodiment according to the present invention. FIG. 2 shows a wiring arrangement result including an arrangement and wiring target according to the first embodiment of the present invention. FIG. 3 shows a wiring arrangement result after the wiring arrangement is changed as a measure against the antenna effect in the first embodiment of the present invention.

In the figure, L1 is a first-layer metal wiring, L
Reference numeral 2 denotes a second-layer metal wiring, and L3 denotes a third-layer metal wiring. S indicates the target area of the antenna effect. 1
A and 1B are standard cells, 2 and 3 are input pins formed as a first layer metal, 4 and 5 are wiring portions forming a first layer metal wiring L1, 6 and 7 are second layer metal wirings L2. 8 is a third layer metal wiring L
The wiring portions 3 and 9 and 10 are the contacts for the second and third layers.

Here, the wiring portion 4 forming the first-layer metal wiring L1 forms a wiring in the standard cell 1B. The wiring portion 4 in the standard cell 1B constituting the first layer metal wiring L1 is connected to the gate a of the transistor T1 (FIG. 1) constituting the standard cell 1B.
The wiring portion 5 also forming the first layer metal wiring L1 is connected to a standard cell (not shown) via the diffusion contact b.
In the transistor T2 (FIG. 1).

In the process of manufacturing a semiconductor integrated circuit, a charge is generated in a wiring portion by plasma used in the manufacturing operation. At a stage where the first-layer metal wiring L1 and the second-layer metal wiring L2 are formed and the third-layer metal wiring L3 is not yet formed, the wiring portion 5 of the first-layer metal wiring L1 and the second-layer metal wiring L2 The charge generated by the plasma generated in the wiring portion 7 escapes to the diffusion region of the transistor T2 via the diffusion contact b, and the charge does not accumulate in these wiring portions 5 and 7, but the wiring portion of the first layer metal wiring L1 4 and second layer metal wiring L2
There is no place for escape of generated charges in the wiring portion 6 of, so that charges are accumulated in these wiring portions 4 and 6,
There is a possibility that the insulation of the gate oxide film c in the gate a of the transistor T1 connected to these wiring portions 4 and 6 may be broken.

The operation of the automatic placement and routing apparatus and the steps of the placement and routing method according to the first embodiment of the present invention will be described. In order to obtain the placement and routing result shown in FIG. 2, the standard cells 1A and 1B are created and placed by the automatic placement and routing apparatus, and displayed on the display screen of the automatic placement and routing apparatus. Further, the wiring portion 4 of the first-layer metal wiring L1,
5, wiring portions 6 and 7 of second-layer metal wiring L2 and third
The wiring portion 8 of the layer metal wiring L3 is similarly created and arranged by the automatic placement and routing apparatus, and is similarly displayed on the display screen of the automatic placement and routing apparatus together with the standard cells 1A and 1B.

The input pin 3 provided in the standard cell 1B is provided with a property for countermeasures against the antenna effect of the standard cell 1B. The properties include the gate size area of the standard cell 1B, the wiring area of the wiring portion in the standard cell 1B, that is, the wiring area 4 of the first layer metal wiring L1, and the input pin 2
The wiring area related to the antenna effect, that is, the wiring area for the wiring portion 6 of the second-layer metal wiring L2 among the wiring areas from the input pin 3 to the input pin 3 is given.

Assuming that the gate size area of the standard cell 1B is "1" and the wiring area of the wiring section 4 of the first layer metal wiring L1 is "1", the wiring area of the second layer metal wiring L2 is "1". The wiring area for 6 is "9"
Then, the antenna ratio is calculated from the above equation (1) to (1 + 9).
/ 1 = 10.

When the automatic placement and routing apparatus determines that the antenna ratio "10" is a value necessary for executing the antenna effect countermeasure as a property for the antenna effect countermeasure, the automatic placement and routing apparatus uses the arrangement and wiring as the antenna effect countermeasure. After the state is changed back to the effective state, as shown in FIG. 3, the wiring part 6 in the second-layer metal wiring L2 is divided into two wiring parts 6a and 6b having the wiring area S2 and the wiring area S3 by the automatic placement and routing apparatus. Then, a new wiring portion 11 related to the third-layer metal wiring L3 is inserted between the divided wiring portions.

When the new wiring portion 11 relating to the third-layer metal wiring L3 is inserted, the divided wiring portion 6b having the wiring area S3 becomes the first-layer metal wiring in the manufacturing process of the semiconductor integrated circuit. In a state where the wiring L1 and the second-layer metal wiring L2 are formed and the third-layer metal wiring L3 is not yet formed, the wiring L1 is separated from the gate a of the transistor T1 by a new wiring portion 11 related to the third-layer metal wiring L3. , The first-layer metal wiring L1 and the wiring area S
Only the wiring portion 4 having the wiring area 1 and the divided wiring portion 6a having the wiring area S2 are connected to the gate a of the transistor T1. That is, the other wiring portion 6b of the divided wiring portion 6 having the wiring area S3 is not connected to the gate a of the transistor T1 due to the presence of a new wiring portion related to the third-layer metal wiring L3. It is removed from the antenna ratio that is the target of the effect, and the target area of the antenna effect is the wiring area S1 of the wiring part 4 and the wiring area 6
This is reduced to the sum of the wiring area S2a and the antenna effect, and the antenna effect can be effectively prevented.

Although the embodiment according to the present invention has been described with reference to a standard cell as an element block for arranging and wiring, ROM, RAM
And other hard macro blocks.

As described above, when an element block such as a standard cell or a hard macro block is created using the automatic placement and routing apparatus, the area of the wiring in the element block (FIG. 2: standard cell 1B Wiring 4
, Etc.), it is possible to prevent a pseudo error which has conventionally been a problem.

According to the first embodiment of the present invention, when an element block 1B including a standard cell, a hard macro block, and the like as an object of automatic arrangement and wiring is created, and the element block 1B is arranged and wired, the element block 1B is used. A property for suppressing destruction due to charge in the wiring is provided, and the layout is performed according to the property. In the property of the input pin 3 provided in the element block 1B, not only the property element corresponding to the gate area but also the property Has a function of also providing a property element according to the area of the wiring 4 in the element block connected to the gate, so that destruction due to charge in the wiring can be accurately suppressed without causing a pseudo error. An automatic placement and routing apparatus capable of placement and routing can be obtained.

According to the first embodiment of the present invention, not only the property element corresponding to the gate area but also the element connected to the gate are used as the properties related to the element block 1B including the standard cell, the hard macro block, and the like. A property element corresponding to the wiring area in the block is also given, and when the property related to the element block is a value necessary for executing the antenna effect countermeasure,
Since the wiring portion 6 requiring the antenna effect countermeasure is divided and the uppermost wiring portion 11 is inserted between the divided wiring portions 6a and 6b, the wiring portion requiring the antenna effect countermeasure is required. By removing a part 6b of the antenna 6 from the target for the antenna effect countermeasure, it is possible to obtain an automatic placement and routing apparatus capable of placing and routing element blocks while suppressing destruction due to charge in the wiring.

Further, according to the first embodiment of the present invention, the element block 1B to be arranged and wired is created, and when the element block 1B is arranged and wired, the destruction of the element block 1B due to charge in the wiring is performed. In the case of providing a property for suppressing and performing arrangement and wiring according to this property, not only the property element according to the gate area but also the wiring 4 in the element block connected to the gate as the property related to the element block 1B. A property element according to the area is also provided, and placement and routing is performed based on properties including these property elements. Obtainable.

According to the first embodiment of the present invention, the properties of the element block 1B are as follows:
When not only the property element according to the gate area but also the property element according to the wiring area in the element block connected to the gate is given, and the property related to the element block is a value necessary for executing the antenna effect countermeasures. The wiring part 6 that needs to take measures against the antenna effect
And the wiring portion 11 arranged on the uppermost layer is inserted between the divided wiring portions 6a and 6b. By removing it from the necessary objects, it is possible to obtain a layout and wiring method capable of appropriately suppressing the destruction of the wiring due to charge and appropriately arranging and wiring the element blocks.

Embodiment 2 Embodiment 2 of the present invention will be described with reference to FIG. FIG. 4 shows a result of automatic placement and routing (in the case of three-layer wiring) according to the second embodiment. In the figure, 1A, 1B, 1C, 1D are standard cells,
L2 is a second layer metal wiring, and L3 is a third layer metal wiring. Reference numeral 12 denotes a boundary input / output pin with the outside, which is formed on a third layer metal. 13 and 14 are input pins formed on the third layer metal, and 15, 16, and 17 are contacts for the second layer and third layer. 18 is a third-layer metal wiring L3
, 19 and 20 are wiring portions forming a second-layer metal wiring L2, and 21 and 22 are wiring portions forming a third-layer metal wiring L3.

When a hard macro block is created using an automatic placement and routing apparatus, the attributes of each input / output pin are automatically recognized as a countermeasure against an antenna effect, and if the attribute of the pin is an attribute as an input pin, the Automatically set the pin layer to the top layer.

The input pin 13 of the standard cell 1B and the input pin 14 of the standard cell 1D naturally have the attribute as an input pin, and the attribute as the input pin is automatically recognized by the automatic placement and routing apparatus. By
The layer of the input pin 13 including the wiring portion 18 and the layer of the input pin 14 including the wiring portion 21 are set to the uppermost layer, that is, the third layer.

The input pin 13 is connected to the gate of the transistor forming the standard cell 1B, and the input pin 14 is connected to the gate of the transistor forming the standard cell 1D. As described above, if the wiring portion connected to the gate of the transistor is formed as a first-layer metal wiring or a second-layer metal wiring, it is necessary to take measures against the antenna effect. When the layer of the pin 13 and the layer of the input pin 14 including the wiring portion 21 are set to the uppermost layer, the first-layer metal wiring L1, the second-layer metal wiring L2, and the third-layer metal wiring during the manufacturing process of the semiconductor integrated circuit. At the stage when L3 is formed, the charge generated by the plasma generated in the wiring portion of the third-layer metal wiring L3 is formed via the diffusion contact b. Fled to the diffusion region of the transistor, not be charged to the wiring portion is accumulated, so that it is unnecessary for the antenna effect measures.

According to the second embodiment, the wiring portion in the hard macro block shown in FIG. 4 is not subjected to the antenna effect, and when the arrangement wiring is performed hierarchically, the inside of the macro block is ignored and the antenna effect countermeasures are considered. It will be good. Conventionally, these operations have been performed by obtaining them, but by automating the operations, the design period can be shortened.

According to the second embodiment of the present invention, an element block having input / output pins as an object of automatic arrangement / wiring is created, and the arrangement / wiring of this element block is performed. If the attribute of the pin is automatically recognized and the attribute of the pin is the attribute of the input pin, the function of automatically setting the layer of the pin as the top layer is provided. It is possible to obtain an automatic placement and routing apparatus which can be excluded from the target of the antenna effect and can effectively take measures against the antenna effect.

Further, according to the second embodiment of the present invention, an element block having input / output pins as an object of arrangement / wiring is created, and when this element block is arranged / wired, the attribute of each input / output pin is set. Recognition, when the attribute of the pin is the attribute as the input pin, the layer of the pin is automatically set to the uppermost layer. Therefore, the wiring portion related to the element block provided with the input pin has an antenna effect. And an automatic placement and routing method that can effectively take measures against the antenna effect can be obtained.

Embodiment 3 Third Embodiment A third embodiment of the present invention will be described with reference to FIGS. FIG. 5 shows an inverter cell composed of standard cells. FIG. 6 is a layout diagram of the diffusion contact. FIG. 7 shows FIG.
3 is a sectional view of a circuit in which a diffusion contact is added to an input pin of the inverter cell shown in FIG.

In the figure, 1 is an inverter cell composed of standard cells, 23 is an input pin, and 24 is an output pin. L1 is a first layer metal, 25 is a first layer contact, 26 is a diffusion (field), and 27 is an n + source / drain region. a is a transistor gate, b is a diffusion contact, and c is a transistor gate oxide film.

Embodiment 3 of the present invention with reference to FIG. 7 as an example.
Will be described. When the diffusion contact b is added to the input pin 23 as shown in FIG. 7, the current charged in the manufacturing process does not flow to the transistor gate a but flows to the diffusion contact b, so that the transistor gate oxide film c is affected. Absent. This is because the gate oxide film c has a much higher resistance and a smaller capacitance than the diffusion contact b. As described above, the antenna effect can be prevented by adding the diffusion contact b to the input pin 23.

According to the third embodiment of the present invention, an element block composed of an inverter constituted by standard cells 1 having input / output pins as objects of automatic arrangement and wiring is created, and arrangement and wiring are performed on this element block. In this embodiment, the function of adding the diffusion contact b to the input pin 22 is provided, so that an automatic placement and routing apparatus capable of appropriately taking a countermeasure against the antenna effect can be obtained by the charge elimination function by the diffusion contact b.

Embodiment 4 Embodiment 4 of the present invention will be described with reference to FIG. FIG. 8 shows an automatic placement and routing result according to the fourth embodiment. In FIG. 8, L
1 is a first-layer metal wiring, L2 is a second-layer metal wiring, 1 is a standard cell, 28 and 29 are input pins, 30 and 31
Is a contact for the first layer and the second layer, 32 and 33 are wiring portions forming the first layer metal wiring L1, 34 is a wiring portion forming the second layer metal wiring, and b is a diffusion contact.

When an element block composed of a hard macro block such as the standard cell 1 is created, the attribute of each input / output pin is automatically recognized, and if the attribute of the pin is an attribute as an input pin, as shown in FIG. By providing the automatic placement and routing device with a function of automatically adding the diffusion contact b, the antenna effect can be prevented as in the third embodiment.

According to the fourth embodiment of the present invention, an element block composed of a hard macro block such as the standard cell 1 having input / output pins as an object of automatic arrangement and wiring is created, and the arrangement and wiring are performed on this element block. In this device, the function of automatically recognizing the attribute of each input / output pin and automatically adding the diffusion contact b when the attribute of the pin is the attribute of the input pin is provided. As a result, an automatic placement and routing apparatus capable of appropriately and accurately taking measures against the antenna effect can be obtained.

According to the fourth embodiment of the present invention, an element block composed of an inverter constituted by standard cells 1 having input / output pins as an object of arrangement and wiring is created, and the arrangement and wiring of this element block are performed. At this time, the attribute of each input / output pin is determined. If the input pin has the attribute, the diffused contact b
Is added, it is possible to obtain a layout and wiring method that can appropriately and accurately take measures against the antenna effect by utilizing the charge elimination function by the diffusion contact b.

As described above, according to the embodiment of the present invention, not only the gate size but also the area of the wiring portion connected to the gate is defined in the property of the antenna effect correspondence function of the automatic placement and routing apparatus. Thus, a pseudo error can be eliminated, and the work that has been conventionally obtained can be automated, thereby shortening the design period.

[0054]

According to the first aspect of the present invention, when an element block to be automatically placed and routed is created and the element block is placed and routed, the element block for suppressing the destruction of the element block due to the charge in the wiring. In the case where a property is given and placement and routing is performed according to this property, not only a property element according to the gate area but also a property related to the element block,
It has a function to also provide a property element according to the wiring area in the element block connected to the gate, so by appropriately setting the property given to the element block, it is possible to charge the wiring without causing a pseudo error. An automatic placement and routing apparatus capable of placing and routing element blocks while suppressing destruction due to the above can be obtained.

According to the second aspect of the present invention, when an element block as an object of automatic placement and routing is created and placement and routing of this element block is performed, destruction of input pins provided in the element block due to charging of the wiring is suppressed. The property of the input block provided in the element block, as well as the property of the input pin provided in the element block, as well as the property element corresponding to the gate area,
It has a function to provide a property element according to the wiring area in the element block connected to the gate, so by properly setting the property given to the input pin provided in the element block, a pseudo error may occur. In addition, it is possible to obtain an automatic placement and routing apparatus capable of placing and routing element blocks while suppressing destruction of wiring due to charge.

According to the third aspect of the present invention, when an element block composed of standard cells as an object of automatic placement and routing is created, and placement and routing of the standard cells are performed, an input pin provided in the standard cell is charged with wiring. The property of the standard cell for suppressing the destruction due to is provided, and the placement and wiring is performed according to this property. In the property of the input pin provided in the standard cell, not only the property element according to the gate area but also the property Has a function of also providing a property element according to the wiring area in the element block connected to the gate, thereby causing a pseudo error by appropriately setting the property given to the input pin provided in the standard cell. Precisely suppress destruction due to charge in wiring without arranging element blocks It is possible to obtain an automatic placement and routing apparatus capable of line.

According to the fourth aspect of the present invention, an element block including a hard macro block as an object of automatic placement and routing is created, and when the placement and routing of the hard macro block are performed, input pins provided in the hard macro block are used. A property of the hard macro block for suppressing destruction due to a charge in wiring is provided, and placement and wiring are performed according to the property. In the configuration, the property of the input pin provided in the hard macro block corresponds to a gate area. Function that gives not only the property element that has been added, but also the property element that corresponds to the wiring area in the element block that connects to the gate, so that the property that is given to the input pin provided in the hard macro block is set appropriately. This causes a pseudo error It not, it is possible to obtain the automatic placement and routing apparatus capable of placing and routing elements block by appropriately suppressing damage due to charge in the wiring.

According to the fifth aspect, not only a property element according to the gate area but also a property element according to the wiring area in the element block connected to the gate is given as the property relating to the element block. When the property related to the element block is a value necessary for executing the antenna effect countermeasures, the arrangement wiring is changed back to a state effective for the antenna effect countermeasures, so that the destruction due to the charge in the wiring is accurately suppressed. Thus, it is possible to obtain an automatic placement and routing apparatus capable of appropriately placing and routing element blocks.

According to a sixth aspect, in the fifth aspect, as the property relating to the element block, not only the property element according to the gate area but also the property according to the wiring area in the element block connected to the gate. When the property relating to the element block is a value necessary for implementing the antenna effect countermeasure, the wiring portion requiring the antenna effect countermeasure is divided, and the uppermost layer is provided between the divided wiring portions. Since the wiring part arranged in the area is inserted, a part of the wiring part that requires the antenna effect countermeasures is removed from the target of the antenna effect countermeasures, so that the destruction due to the charge in the wiring can be accurately suppressed. An automatic placement and routing apparatus capable of appropriately placing and routing element blocks can be obtained.

According to the seventh aspect of the present invention, an element block having input / output pins as an object of automatic arrangement and wiring is created, and arrangement and wiring is performed for this element block.
Since the function of automatically recognizing the attribute of each input / output pin and if the attribute of the pin is an attribute as an input pin, the function of automatically setting the layer of the pin as the top layer is provided.
Wiring portions related to the element blocks provided with the input pins can be excluded from the target of the antenna effect, and an automatic placement and routing apparatus capable of effectively taking measures against the antenna effect can be obtained.

According to the eighth aspect of the present invention, an element block having an input pin as an object of automatic arrangement and wiring is prepared, and a function of adding a diffusion contact to the input pin is provided in the arrangement and wiring of this element block. As a result, it is possible to obtain an automatic placement and routing apparatus capable of appropriately taking measures against the antenna effect by the charge elimination function using the diffusion contact.

According to the ninth aspect, an element block having input / output pins as a target of automatic arrangement and wiring is created, and the arrangement and wiring of this element block are performed.
The function of automatically recognizing the attribute of each input / output pin and automatically adding a diffused contact when the attribute of the pin is an attribute of an input pin is provided. It is possible to obtain an automatic placement and routing apparatus capable of appropriately and accurately taking effect measures.

According to the tenth aspect, an element block to be placed and routed is created, and when this element block is placed and routed, a property for suppressing the destruction of the element block due to charge in the wiring is given. In the case of performing the placement and routing according to this property, as the property related to the element block,
In addition to the property element according to the gate area, a property element according to the wiring area in the element block connected to the gate is given, and the placement and routing is performed by the property including these property elements. By appropriately setting the given property, it is possible to obtain a placement and routing method capable of placing and routing element blocks without causing a pseudo error and accurately suppressing destruction due to charge in wiring.

According to the eleventh aspect, not only a property element corresponding to a gate area but also a property element according to a wiring area in an element block connected to the gate is provided as a property relating to the element block. When the property related to the element block is a value necessary for executing the antenna effect countermeasures, the arrangement wiring is changed back to a state effective for the antenna effect countermeasures, so that the destruction due to the charge in the wiring is accurately suppressed. Thus, it is possible to obtain an arrangement and wiring method capable of appropriately arranging and wiring the element blocks.

According to the twelfth aspect, not only the property element according to the gate area but also the property element according to the wiring area in the element block connected to the gate is given as the property relating to the element block. When the property related to the element block is a value necessary for executing the antenna effect countermeasure, the wiring portion requiring the antenna effect countermeasure is divided, and the wiring portion arranged on the uppermost layer between the divided wiring portions is divided. Is inserted, so by removing some of the wiring parts that need to take measures against antenna effects from those that need to take measures against antenna effects,
It is possible to obtain an arrangement and wiring method capable of appropriately arranging and wiring the element blocks while appropriately suppressing destruction due to charge in the wiring.

According to the thirteenth aspect, an element block having input / output pins as an object of arrangement / wiring is created, and at the time of arrangement / wiring of this element block, the attribute of each input / output pin is recognized and the pin is recognized. If the attribute is an attribute as an input pin, the layer of that pin is set as the uppermost layer, so that the wiring portion related to the element block provided with the input pin can be excluded from the antenna effect. As a result, it is possible to obtain an arrangement and wiring method that can effectively take measures against the antenna effect.

According to the fourteenth aspect, an element block having an input pin as an object of arrangement and wiring is created, and when this element block is arranged and wired, the attribute of each input / output pin is determined, and the attribute of each input / output pin is determined. In the case of having the attribute of, the diffusion contact is added to the input pin.
It is possible to obtain an arrangement and wiring method capable of appropriately and accurately taking measures against the antenna effect.

[Brief description of the drawings]

FIG. 1 is a schematic diagram showing a wiring portion to be subjected to an antenna effect according to an embodiment of the present invention and a conventional technique.

FIG. 2 is a diagram showing an automatic placement and routing object according to the embodiment of the present invention and the related art.

FIG. 3 is a diagram showing a result of automatic placement and routing after the execution of a wiring placement change as a countermeasure for an antenna effect according to the first embodiment of the present invention;

FIG. 4 is a diagram showing a result of automatic placement and routing according to a second embodiment of the present invention;

FIG. 5 is a diagram showing an inverter cell according to a third embodiment of the present invention.

FIG. 6 is a layout diagram of a diffusion contact according to a third embodiment of the present invention.

FIG. 7 is a sectional view of a circuit in which a diffusion contact is added to an input pin of an inverter cell according to a third embodiment of the present invention.

FIG. 8 is a diagram showing a result of automatic placement and routing according to a fourth embodiment of the present invention.

[Explanation of symbols]

1A to 1D standard cell, 2, 3 input pins, wiring in 4 standard cells, 5, 6, 7, 8 wiring portion, 9, 10, second layer, third layer contact, 12, 13, 14 input pins,
15, 16, 17 Second layer, third layer contact, 18,
19, 20, 21, 22 Wiring part, 23 input pins,
24 output pins, L1 first layer metal wiring, L2 second
Layer metal wiring, L3 Third layer metal wiring, S antenna effect target, a transistor gate, b diffusion contact, c transistor gate oxide film.

Continued on the front page (72) Inventor Masahiko Takashima 2-3-2 Marunouchi, Chiyoda-ku, Tokyo F-term (reference) 5B046 AA08 BA06 5F064 DD02 DD04 DD25 EE02 EE08 EE09 EE17 EE22 EE41 HH10

Claims (14)

[Claims] 1. An element block as a target of automatic placement and routing is created, and when the element block is placed and routed, a property for suppressing destruction of the element block due to charge in the wiring is given. In the arrangement and wiring, a function to give not only a property element according to a gate area but also a property element according to a wiring area in an element block connected to the gate as a property related to the element block is provided. An automatic placement and routing apparatus, characterized in that: 2. An element block as a target of automatic placement and routing, wherein the element block for suppressing destruction of an input pin provided in the element block due to a charge in a wiring when the element block is placed and routed. In the case where the property of the input pin provided in the element block is not only the property element corresponding to the gate area but also the wiring in the element block connected to the gate, An automatic placement and routing apparatus having a function of giving a property element according to an area. 3. An element block comprising a standard cell as an object of automatic placement and routing is created, and when the placement and routing of the standard cell is performed, the input pins provided in the standard cell are prevented from being damaged by charge in the wiring. In which the property of the standard cell is provided and the wiring is performed according to the property, the property of the input pin provided in the standard cell is not only a property element according to the gate area but also an element connected to the gate. An automatic placement and routing apparatus having a function of giving a property element according to a wiring area in a block. 4. An element block including a hard macro block as an object of automatic placement and routing is created, and when the placement and routing of the hard macro block is performed, input pins provided in the hard macro block are damaged by charge in the wiring. The property of the hard macro block for suppressing is provided, and the layout is performed according to the property. In the property of the input pin provided in the hard macro block,
An automatic placement and routing apparatus having a function of giving not only a property element according to a gate area but also a property element according to a wiring area in an element block connected to the gate. 5. A property relating to the element block not only a property element corresponding to a gate area but also a property element according to a wiring area in an element block connected to the gate, and a property relating to the element block is provided. 2. The method according to claim 1, wherein when the value is a value required for executing the antenna effect countermeasures, the arrangement and wiring are changed back to a state effective for the antenna effect countermeasures.
An automatic placement and routing apparatus according to claim 4. 6. A property relating to the element block is given not only a property element corresponding to a gate area but also a property element according to a wiring area in an element block connected to the gate, and a property relating to the element block. If is the value required to execute the antenna effect countermeasure, the wiring part that requires the antenna effect countermeasure is divided, and the wiring part arranged in the uppermost layer is inserted between the divided wiring parts. The automatic placement and routing apparatus according to claim 5, wherein 7. An element block having an input / output pin as an object of automatic placement and routing is created. When the placement and routing of this element block is performed, the attribute of each input / output pin is automatically recognized. An automatic placement and routing apparatus having a function of automatically setting a layer of a pin as an uppermost layer when the attribute is an input pin. 8. An element block having an input pin as an object of automatic placement and routing, wherein a function of adding a diffusion contact to the input pin is provided for performing the placement and routing of the element block. Automatic placement and routing equipment. 9. An element block having an input / output pin as an object of automatic placement and routing is created, and the placement and routing of this element block is automatically recognized. An automatic placement and routing apparatus having a function of automatically adding a diffusion contact when the attribute is an input pin. 10. An element block to be placed and routed is created, and when the element block is placed and routed, a property for suppressing the destruction of the element block due to charge in the wiring is given. In the placement and routing, not only a property element according to a gate area but also a property element according to a wiring area in an element block connected to the gate is given as a property related to the element block. A placement and routing method, wherein the placement and routing is performed according to the properties included. 11. A property relating to the element block, not only a property element corresponding to a gate area,
A property element corresponding to the wiring area in the element block connected to the gate is also given, and if the property related to the element block is a value necessary for executing the antenna effect countermeasure, the arrangement and wiring are effective for the antenna effect countermeasure. 11. The placement and routing method according to claim 10, wherein the state is changed again. 12. The property relating to the element block includes not only a property element according to a gate area,
In addition to providing a property element according to the wiring area in the element block connected to the gate, if the property related to the element block is a value required to execute the antenna effect countermeasure, the wiring requiring the antenna effect countermeasure is required. 12. The placement and routing method according to claim 11, wherein the portion is divided, and a wiring portion arranged in an uppermost layer is inserted between the divided wiring portions. 13. An element block having input / output pins as an object of arrangement / wiring is created. When the element block is arranged / routed, the attribute of each input / output pin is recognized, and the attribute of the pin is set as an input pin. The pin layer is set as the uppermost layer if the attribute is the attribute. 14. An element block having an input pin as an object of arrangement and wiring is created, and when performing the arrangement and wiring for this element block, the attribute of each input / output pin is determined. A diffusion wiring is added to an input pin.